Long Baseline Neutrino Oscillations

Filter this page

(Note: The process can take some time.)

EXPAND ALL
COMPRESS ALL

References

1 - Reviews

[1-1]
Snowmass Neutrino Frontier: NF01 Topical Group Report on Three-Flavor Neutrino Oscillations, Peter B. Denton, Megan Friend, Mark D. Messier, Hirohisa A. Tanaka, Sebastian Boser, Joao A. B. Coelho, Mathieu Perrin-Terrin, Tom Stuttard, arXiv:2212.00809, 2022.
[Denton:2022een]
[1-2]
Snowmass Neutrino Frontier Report, Patrick Huber et al., arXiv:2211.08641, 2022.
[Huber:2022lpm]
[1-3]
Snowmass Topical Report: Underground Facilities for Neutrinos, Tim Bolton, M. Patrick Decowski, Albert De Roeck, Gabriel Orebi Gann, Danielle H. Speller, arXiv:2209.07622, 2022.
[Bolton:2022pgb]
[1-4]
Report of the Topical Group on Artificial Neutrino Sources for Snowmass 2021, L. Fields, A. D. Marino, J. P. Ochoa-Ricoux, J. Spitz, arXiv:2209.07480, 2022.
[Fields:2022pxk]
[1-5]
A review of the tension between the T2K and NO$\nu$A appearance data and hints to new physics, Ushak Rahaman, Soebur Razzaque, S. Uma Sankar, Universe 8 (2022) 109, arXiv:2201.03250.
[Rahaman:2022rfp]
[1-6]
NuFIT: Three-Flavour Global Analyses of Neutrino Oscillation Experiments, M.C. Gonzalez-Garcia, Michele Maltoni, Thomas Schwetz, Universe 7 (2021) 459, arXiv:2111.03086.
[Gonzalez-Garcia:2021dve]
[1-7]
A Decade of Discoveries by the Daya Bay Reactor Neutrino Experiment, David E. Jaffe, Mod.Phys.Lett.A 36 (2021) 2130021, arXiv:2106.07700.
[Jaffe:2021wgf]
[1-8]
Design and diagnostics of high-precision accelerator neutrino beams, N. Charitonidis, A. Longhin, M. Pari, E. G. Parozzi, F. Terranova, arXiv:2103.07726, 2021.
[2103.07726]
[1-9]
Review of Liquid Argon Detector Technologies in the Neutrino Sector, Krishanu Majumdar, Konstantinos Mavrokoridis, Appl.Sciences 11 (2021) 2455, arXiv:2103.06395.
[Majumdar:2021llu]
[1-10]
Particle Physics at Accelerators in the United States and Asia, Pushpalatha C. Bhat, Geoffrey N. Taylor, Nature Phys. 16 (2020) 380-385, arXiv:2006.10583.
[Bhat:2020kbd]
[1-11]
Neutrino Long-Baseline Experiments and Nuclear Physics, Ulrich Mosel, Nucl. Phys. News 29 (2019) 10-14, arXiv:2004.06596.
[Mosel:2019mch]
[1-12]
Three-flavour oscillations with accelerator neutrino beams, M. Mezzetto, F. Terranova, Universe 6 (2020) 32, arXiv:2002.04890.
[Mezzetto:2020jka]
[1-13]
Long baseline neutrino oscillation experiments with accelerators in Japan: From K2K to T2K, Tsuyoshi Nakaya, Koichiro Nishikawa, Eur. Phys. J. C 80 (2020) 344.
[Nakaya:2020lrq]
[1-14]
History of accelerator neutrino beams, Ubaldo Dore, Pier Loverre, Lucio Ludovici, Eur.Phys.J. H (2019) 1-35, arXiv:1805.01373.
[Dore:2018ldz]
[1-15]
Detection techniques and investigation of different neutrino experiments, Ankur Nath, Ng. K. Francis, Int.J.Mod.Phys. A36 (2021) 2130008, arXiv:1804.08467.
[Nath:2018ywc]
[1-16]
Review: Long-baseline oscillation experiments as a tool to probe High Energy Models, Pedro Pasquini, Adv.High Energy Phys. 2018 (2018) 1825874, arXiv:1802.00821.
[Pasquini:2018udd]
[1-17]
Physics with Reactor Neutrinos, Xin Qian, Jen-Chieh Peng, Rept.Prog.Phys. 82 (2019) 036201, arXiv:1801.05386.
[Qian:2018wid]
[1-18]
Neutrino oscillations: the rise of the PMNS paradigm, Claudio Giganti, Stephane Lavignac, Marco Zito, Prog.Part.Nucl.Phys. 98 (2018) 1-54, arXiv:1710.00715.
[Giganti:2017fhf]
[1-19]
Roadmap for the international, accelerator-based neutrino programme, J. Cao et al., arXiv:1704.08181, 2017.
[Cao:2017hno]
[1-20]
T2K and beyond, M.G. Catanesi, Adv.High Energy Phys. 2016 (2016) 5496103, arXiv:1609.02069.
[Catanesi:2016iyv]
[1-21]
Long-Baseline Neutrino Experiments, M. V. Diwan, V. Galymov, X. Qian, A. Rubbia, Science 66 (2016) 47-71, arXiv:1608.06237.
[Diwan:2016gmz]
[1-22]
An overview of the Daya Bay Reactor Neutrino Experiment, Jun Cao, Kam-Biu Luk, Nucl. Phys. B908 (2016) 62-73, arXiv:1605.01502.
[Cao:2016vwh]
[1-23]
Neutrino Interactions with Nucleons and Nuclei: Importance for Long Baseline Experiments, Ulrich Mosel, Ann.Rev.Nucl.Part.Sci. 66 (2016) 171, arXiv:1602.00696.
[Mosel:2016cwa]
[1-24]
Measurement of neutrino mixing angle $\Theta_{13}$ and mass difference $\Delta m^2_{ee}$ from reactor antineutrino disappearance in the RENO experiment, Soo-Bong Kim (RENO), Nucl. Phys. B908 (2016) 94-115.
[Kim:2016yvm]
[1-25]
Next Generation of Neutrino Studies and Facilities, Luca Stanco, Rev.Phys. 1 (2016) 90-100, arXiv:1511.09409.
[Stanco:2015ejj]
[1-26]
The Results of MINOS and the Future with MINOS+, Ashley Timmons, Adv. High Energy Phys. 2016 (2016) 7064960, arXiv:1511.06178.
[Timmons:2015laq]
[1-27]
Neutrino Oscillations with the MINOS, MINOS+, T2K, and NOvA Experiments, Tsuyoshi Nakaya, Robert K. Plunkett, New J. Phys. 18 (2016) 015009, arXiv:1507.08134.
[Nakaya:2015ksa]
[1-28]
Neutrino Mass Hierarchy, X. Qian, P. Vogel, Prog.Part.Nucl. Phys. 83 (2015) 1-30, arXiv:1505.01891.
[Qian:2015waa]
[1-29]
Measurement of $\theta_{13}$, Soo-Bong Kim, Kam-Biu Luk, Ann. Rev. Nucl. Part. Sci. 65 (2015) 329-354.
[Kim:2015fzb]
[1-30]
Neutrino Oscillation Physics Potential of the T2K Experiment, K.Abe et al. (T2K), PTEP 2015 (2014) 043C01, arXiv:1409.7469.
[T2K:2014xyt]
[1-31]
Physics Potential of Long-Baseline Experiments, Sanjib Kumar Agarwalla, Adv.High Energy Phys. 2014 (2014) 457803, arXiv:1401.4705.
[Agarwalla:2014fva]
[1-32]
Neutrino oscillations, G. Bellini, L. Ludhova, G. Ranucci, F.L. Villante, Adv.High Energy Phys. 2014 (2014) 191960, arXiv:1310.7858.
[Bellini:2013wra]
[1-33]
The MINOS experiment: results and prospects, Justin Evans (MINOS), Advances in High Energy Physics, special issue on Neutrino Masses and Oscillations 2013 (2013) 182537, arXiv:1307.0721.
[Evans:2013pka]
[1-34]
Neutrino Propagation in Matter, Mattias Blennow, Alexei Yu. Smirnov, Adv.High Energy Phys. 2013 (2013) 972485, arXiv:1306.2903.
[Blennow:2013rca]
[1-35]
Long baseline neutrino beams at Fermilab, S.Childress, J.Strait (NuMI, NOvA and LBNE Collaborations), J. Phys. Conf. Ser. 408 (2013) 012007, arXiv:1304.4899.
[Childress:2013npa]
[1-36]
A Review of Long-baseline Neutrino Oscillation Experiments, G. J. Feldman, J. Hartnell, T. Kobayashi, Adv.High Energy Phys. 2013 (2013) 475749, arXiv:1210.1778.
[Feldman:2012jdx]
[1-37]
Kinematics of an off axis neutrino beam, Jean-Michel Levy, arXiv:1005.0574, 2010.
[Levy:2010ze]
[1-38]
MINOS neutrino oscillation results, Alec Habig, Mod. Phys. Lett. A25 (2010) 1219-1231, arXiv:1004.2647.
[Habig:2010vw]
[1-39]
$\vartheta_{13}$: phenomenology, present status and prospect, Mauro Mezzetto, Thomas Schwetz, J. Phys. G37 (2010) 103001, arXiv:1003.5800.
[Mezzetto:2010zi]
[1-40]
European facilities for accelerator neutrino physics: perspectives for the decade to come, R. Battiston, M. Mezzetto, P. Migliozzi, F. Terranova, Riv. Nuovo Cim. 033 (2010) 313-343, arXiv:0912.3372.
[Battiston:2009ux]
[1-41]
Phenomenology with Massive Neutrinos, M. C. Gonzalez-Garcia, Michele Maltoni, Phys. Rept. 460 (2008) 1-129, arXiv:0704.1800.
[Gonzalez-Garcia:2007dlo]
[1-42]
Physics opportunities with future proton accelerators at CERN, A. Blondel et al., arXiv:hep-ph/0609102, 2006.
[Blondel:2006vx]
[1-43]
Reactor Neutrinos, Thierry Lasserre, Henry W. Sobel, Comptes Rendus Physique 6 (2005) 749, arXiv:nucl-ex/0601013.
[Lasserre:2005qw]
[1-44]
Global analysis of three-flavor neutrino masses and mixings, G. L. Fogli, E. Lisi, A. Marrone, A. Palazzo, Prog. Part. Nucl. Phys. 57 (2006) 742-795, arXiv:hep-ph/0506083.
[Fogli:2005cq]
[1-45]
Neutrino Masses and Mixing: Evidence and Implications, M.C. Gonzalez-Garcia, Y. Nir, Rev. Mod. Phys. 75 (2003) 345-402, arXiv:hep-ph/0202058.
[Gonzalez-Garcia:2002bkq]
[1-46]
Finally neutrino has mass?, S. M. Bilenky, C. Giunti, C. W. Kim, Int. J. Mod. Phys. A15 (2000) 625-650, arXiv:hep-ph/9902462.
[Bilenky:1999mf]

2 - Reviews - Talks

[2-1]
Neutrino Experiments at J-PARC, Masahiro Kuze, JPS Conf.Proc. 33 (2021) 011139, arXiv:2001.03417. J-PARC Symposium 2019.
[Kuze:2020mbj]
[2-2]
Recent results from Long Baseline Neutrino experiments, Mario A. Acero, arXiv:1811.11895, 2018. Invited talk at PIC2018: XXXVIII International Symposium on Physics in Collision, Bogota, Colombia, 2018. 10 pages, LaTeX, 15 pdf figures.
[Acero:2018kyq]
[2-3]
Neutrino detectors for oscillation experiments, Yury Kudenko, JINST 12 (2017) C06003, arXiv:1705.06059. INSTR17 (Novosibirsk, Russia, 27 February - 3 March 2017).
[Kudenko:2017tgh]
[2-4]
Short-baseline Reactor Neutrino Oscillation, Seon-Hee Seo, PoS NOW2016 (2017) 002, arXiv:1701.06843. Neutrino Oscillation Workshop (NOW) 2016.
Comment: In spite of the title, this is a review of Long-Baseline Reactor Neutrino Oscillation.
[Seo:2017tjb]
[2-5]
Prospects for neutrino oscillation parameters, Patrick Huber, PoS NOW2016 (2017) 025, arXiv:1612.04843. NOW2016.
[Huber:2016mki]
[2-6]
Neutrino Interactions and Long-Baseline Experiments, Ulrich Mosel, PoS ICHEP2016 (2016) 504, arXiv:1611.00373. ICHEP 16, Chicago, Aug. 3-10, 2016.
[Mosel:2016inz]
[2-7]
Searching for neutrino oscillation parameters in long baseline experiments, Sampsa Vihonen, arXiv:1606.03265, 2016. Magellan Workshop: Connecting Neutrino Physics and Astronomy.
[Vihonen:2016vyv]
[2-8]
Search for Sterile Neutrinos at Long and Short Baselines, Luca Stanco, arXiv:1604.06769, 2016. NuPhys2015 (London, 16-18 December 2015).
[Stanco:2016gnl]
[2-9]
Neutrino Interactions and Long Baseline Physics, Ulrich Mosel, arXiv:1504.08204, 2015. Prospects in Neutrino Physics Conference, 15 - 17 December, 2014, Queen Mary University of London, UK.
[Mosel:2015yaa]
[2-10]
Summary of Long-Baseline Systematics Session at CETUP*2014, D. Cherdack, E. Worcester, AIP Conf. Proc. 1680 (2015) 030001, arXiv:1501.05054. CETUP' Workshop 2014.
[Cherdack:2015hya]
[2-11]
Recent Results from Long-Baseline Neutrino Experiments, Alysia D. Marino, arXiv:1411.3296, 2014. XXXIV Physics in Collision Symposium, Bloomington, Indiana, Sept 16-20, 2014.
[Marino:2014bta]
[2-12]
Status of theta13 measurement in reactor experiments, Kwong Lau, arXiv:1308.0089, 2013. 2013 Flavor Physics and CP Violation (FPCP-2013), Buzios, Rio de Janeiro, Brazil, May 19-24 2013.
[Lau:2013rfa]
[2-13]
Current and Future Liquid Argon Neutrino Experiments, Georgia Karagiorgi, AIP Conf.Proc. 1663 (2015) 100001, arXiv:1304.2083. NuInt'12.
[Karagiorgi:2013cwa]
[2-14]
The Experimental Status of $\theta_{13}$ from the Point of View of the Electron (Anti-) Neutrino Disappearance Experiments, Rupert Leitner, arXiv:1302.2409, 2013. Physics in Collision, Slovakia, 2012.
[Leitner:2013owt]
[2-15]
(Direct) Measurement of $\theta_{13}$, R. P. Litchfield, arXiv:1209.3884, 2012. Flavor Physics and CP Violation (FPCP 2012), Hefei, China, May 21-25, 2012.
[Litchfield:2012pz]
[2-16]
Review of Reactor Antineutrino Experiments, Zelimir Djurcic, J. Phys. Conf. Ser. 408 (2013) 012008, arXiv:1201.1522. NuFact 2011, XIIIth InternationalWorkshop on Neutrino Factories, Super beams and Beta beams, CERN/UNIGE, Geneva, Switzerland, August 1-6, 2011.
[Djurcic:2012nq]
[2-17]
Muon Neutrino Disappearance and Tau Neutrino Appearance, M. C. Sanchez, arXiv:1112.0618, 2011. XXXI Conference on Physics in Collision, Vancouver, Canada, August 28 to September 1, 2011.
[Sanchez:2011np]
[2-18]
Progress on the neutrino mixing angle, $\vartheta_{13}$, D. Karlen, arXiv:1111.2397, 2011. XXXI PHYSICS IN COLLISION, Vancouver, BC Canada, September 2011.
[Karlen:2011ki]
[2-19]
Long-Baseline Neutrino Oscillation Experiments, Alexandre Sousa, Conf.Proc. C100901 (2010) 182-189, arXiv:1102.1125. XXX International Symposium in Physics in Collision (PIC2010).
[Sousa:2010mzu]
[2-20]
Atmospheric $\nu$ and Long Baseline $\nu$ experiments II, Giorgio Giacomelli, arXiv:1102.0650, 2011. Carpatian Summer School of Physics 2010, Sinaia, Romania.
[Giacomelli:2011ut]
[2-21]
Neutrino physics, P. Hernandez, arXiv:1010.4131, 2010. 5th CERN-Latin-American School of High-Energy Physics, Recinto Quirama, Colombia, 15 - 28 Mar 2009.
[Hernandez:2010mi]
[2-22]
Neutrinos Oscillations with Long-Base-Line Beams (Past, Present and very near Future), Luca Stanco, arXiv:1006.4826, 2010. Int. Conf. Beyond the Standard Models of Particle Physics, Cosmology and Astrophysics (BEYOND 2010), 1-6 February 2010, Cape Town, South Africa.
[Stanco:2010pr]
[2-23]
Next Challenge in Neutrino Physics: the $\theta_{13}$ Angle, Mauro Mezzetto, arXiv:0905.2842, 2009. 13th International Workshop on Neutrino Telescopes, Venice, March 10 - 13, 2009.
[Mezzetto:2009cr]
[2-24]
Long baseline neutrino oscillations: Theoretical aspects, Walter Winter, Nucl. Phys. Proc. Suppl. 188 (2009) 151-157, arXiv:0811.1175. NOW 2008.
[Winter:2008dd]
[2-25]
Atmospheric neutrino and Long Baseline neutrino experiments, Giorgio Giacomelli, AIP Conf. Proc. 972 (2008) 412-420, arXiv:0712.2126. Carpatian Summer School of Physics 2007, Sinaia, Romania, August 2007.
[Giacomelli:2007bd]
[2-26]
Neutrinos; Opportunities and Strategies in the Future, Hisakazu Minakata, eConf C0610161 (2006) 036, arXiv:hep-ph/0701070. International Conference 'Heavy Quarks and Leptons', Munich, Germany, October 16-20, 2006, and Second World Summit on 'Physics Beyond the Standard Model', Galapagos Islands, Ecuador, June 22-25, 2006.
[Minakata:2006tnt]
[2-27]
Neutrino physics at and above GeV energies, Andrea Donini, M. Mezzetto, Nucl. Phys. Proc. Suppl. 168 (2007) 395-400.
[Donini:2007zz]
[2-28]
Unbound neutrino roadmaps, Marco Laveder, Nucl. Phys. Proc. Suppl. 168 (2007) 344-346. Workshop on Neutrino Oscillation Physics (NOW 2006), Otranto, Lecce, Italy, 9-16 Sep 2006.
[Laveder:2007zz]
[2-29]
Accelerator neutrino beams, Sacha E. Kopp, Phys. Rept. 439 (2007) 101-159, arXiv:physics/0609129. NuFact Summer School.
[Kopp:2006ky]
[2-30]
Global fits to neutrino oscillation data, Thomas Schwetz, Phys. Scripta T127 (2006) 1-5, arXiv:hep-ph/0606060. SNOW2006 workshop, Stockholm, 2-6 May 2006.
[Schwetz:2006dh]
[2-31]
Neutrino oscillations: Current status and prospects, Thomas Schwetz, Acta Phys. Polon. B36 (2005) 3203, arXiv:hep-ph/0510331. XXIX International Conference of Theoretical Physics, 'Matter To The Deepest: Recent Developments In Physics of Fundamental Interactions', 8-14 September 2005, Ustron, Poland.
[Schwetz:2005jr]
[2-32]
Evidence for Neutrino Mass: A Decade of Discovery, K.M. Heeger, arXiv:hep-ex/0412032, 2004. SEESAW25: International Conference on the Seesaw Mechanism and Neutrino Mass, Paris, France, 10-11 June 2004.
[Heeger:2004mp]
[2-33]
Three-flavour effects and CP- and T-violation in neutrino oscillations, Evgeny Akhmedov, Phys. Scripta T121 (2005) 65, arXiv:hep-ph/0412029. Nobel Symposium 129 - Neutrino Physics, Haga Slott, Enkoping, Sweden, August 19-24, 2004.
[Akhmedov:2004ve]
[2-34]
Physics of Massive Neutrinos, J. W. F. Valle, Nucl. Phys. Proc. Suppl. 149 (2005) 3, arXiv:hep-ph/0410103. Sixth International Conf. on Neutrino Factories and SuperBeams (NuFact04) Osaka, Japan, July 26-August 1, 2004.
[Valle:2004cr]
[2-35]
Neutrino 2004: Concluding Talk, Guido Altarelli, Nucl. Phys. Proc. Suppl. 143 (2005) 470, arXiv:hep-ph/0410101. Neutrino 2004, Paris, 14-19 June 2004.
[Altarelli:2004cp]
[2-36]
Global Analysis of Neutrino Data, M. C. Gonzalez-Garcia, Phys. Scripta T121 (2005) 72, arXiv:hep-ph/0410030. Nobel Symposium on Neutrino Physics, Haga Slott, Enkoping, Sweden.
[Gonzalez-Garcia:2004oyj]
[2-37]
Global analysis of neutrino oscillation, S. Goswami, 2004. Neutrino 2004, 13-19 June 2004, Paris, France. http://neutrino2004.in2p3.fr/slides/tuesday/goswami.pdf.
[Goswami-Nu2004]
[2-38]
Neutrino oscillations in the framework of the tree-neutrino mixing, S. M. Bilenky, arXiv:hep-ph/0307186, 2003. Ist Yamada Symposium Om neutrinos and Dark Matter in Nuclear Physics, June 9-14, 2003, Nara, Japan.
[Bilenky:2003rb]
[2-39]
Neutrino Physics: Experimental Status, T. Kajita, 2003. 19th International Workshop on Weak Interactions and Neutrinos, WIN2003, October 6-11, Lake Geneva, Wisconsin, USA. http://conferences.fnal.gov/win03/Talks/Takaaki%20Kajita.pdf.
Comment: The slide n. 19 shows the $ 90 \% $ C.L. allowed contours for $\nu_\mu \rightarrow \nu_\tau$ oscillations obtained by different atmospheric neutrino experiments. The figure in slide n.24 shows the $ 90 \% $ C.L. allowed contour for $\nu_\mu \rightarrow \nu_\tau$ oscillations obtained by Super-Kamiokande. [M.L.].
[Kajita:WIN2003]
[2-40]
Results and status of current accelerator neutrino experiments, K. Nishikawa, 2003. XXI International Symposium on Lepton Photon 2003, 11-16 August 2003, Fermi National Accelerator Laboratory, Batavia, Illinois, USA. http://conferences.fnal.gov/lp2003/program/S10/nishikawa_s10.pdf.
Comment: The slide n.40 shows the expected $ 90 \% C.L. $ sensitivity on $\theta_{13}$ of different projects. [M.L.].
[Nishikawa:LP2003]
[2-41]
The Physics Potential of Future Long Baseline Neutrino Oscillation Experiments, Manfred Lindner, Springer Tracts Mod. Phys. 190 (2003) 209, arXiv:hep-ph/0209083. XXth International Conference on Neutrino Physics and Astrophysics May 25 - 30, 2002, Munich, Germany. http://neutrino2002.ph.tum.de/pages/transparencies/lindner.
[Lindner:2002vt]
[2-42]
Atmospheric and long baseline neutrino, T. Nakaya (Super-Kamiokande), eConf C020620 (2002) SAAT01, arXiv:hep-ex/0209036. 22nd Physics in Collision Conference (PIC 2002), Stanford, California, 20-22 June 2002.
[Nakaya:2002ki]
[2-43]
Long baseline neutrino oscillation experiments, K. Zuber, arXiv:hep-ex/0206005, 2002. DARK2002, Cape Town, South Africa, February 4-9, 2002.
[Zuber:2002nd]
[2-44]
Long Baseline Neutrino Oscillation Review, A. Weber, arXiv:hep-ex/0205043, 2002. Moriond EW 2002.
[Weber:2002yh]
[2-45]
Long baseline neutrino oscillation experiments: why and how, A. Marchionni, 2002. Workshop on Neutrino News from the Lab and the Cosmos, Fermilab, October 17 - 19, 2002. http://www-astro-theory.fnal.gov/Conferences/NuCosmo/talks/marchionni.pdf.
[Marchionni-Fermilab2002]
[2-46]
Atmospheric Neutrinos and K2K, K. Nishikawa, 2002. Topical Seminar on Frontier of Particle Physics 2002: Neutrinos and Cosmology, 20-25 August 2002, Beijing, China. http://bes.ihep.ac.cn/particle/2002/presentation/K.Nishikawa/TALK_2.ZIP.
[Nishikawa-Beijing2002]

3 - Habilitation, PhD and Master Theses

[3-1]
Deep Learning Applications to Particle Physics: from Monte Carlo simulation acceleration to ProtoDUNE reconstruction, Marco Rossi, arXiv:2302.03343, 2023.
[Rossi:2023qvf]
[3-2]
Some aspects of neutrino mixing and oscillations, Sanjib Kumar Agarwalla, arXiv:0908.4267, 2009.
[Agarwalla:2008jin]

4 - Experiment

[4-1]
Expanding neutrino oscillation parameter measurements in NOvA using a Bayesian approach, M. A. Acero et al. (NOvA), arXiv:2311.07835, 2023.
[NOvA:2023iam]
[4-2]
Measurements of neutrino oscillation parameters from the T2K experiment using $3.6\times10^{21}$ protons on target, K. Abe et al. (T2K), Eur.Phys.J.C 83 (2023) 782, arXiv:2303.03222.
[T2K:2023smv]
[4-3]
Precision measurement of reactor antineutrino oscillation at kilometer-scale baselines by Daya Bay, F. P. An et al. (Daya Bay), Phys.Rev.Lett. 130 (2023) 161802, arXiv:2211.14988.
[DayaBay:2022orm]
[4-4]
An Improved Measurement of Neutrino Oscillation Parameters by the NOvA Experiment, M. A. Acero et al. (NOvA, R. Group), Phys.Rev.D 106 (2022) 032004, arXiv:2108.08219.
[NOvA:2021nfi]
[4-5]
Search for active-sterile antineutrino mixing using neutral-current interactions with the NOvA experiment, M. A. Acero et al., Phys.Rev.Lett. 127 (2021) 201801, arXiv:2106.04673.
[NOvA:2021smv]
[4-6]
Improved constraints on neutrino mixing from the T2K experiment with $\mathbf{3.13\times10^{21}}$ protons on target, K. Abe et al. (T2K), Phys.Rev. D103 (2021) 112008, arXiv:2101.03779.
[T2K:2021xwb]
[4-7]
Search for Signatures of Sterile Neutrinos with Double Chooz, T. Abrahao et al. (Double Chooz), Eur.Phys.J.C 81 (2021) 775, arXiv:2009.05515.
[DoubleChooz:2020pnv]
[4-8]
T2K measurements of muon neutrino and antineutrino disappearance using $3.13\times 10^{21}$ protons on target, K. Abe et al. (T2K), Phys.Rev. D103 (2021) L011101, arXiv:2008.07921.
[T2K:2020nqo]
[4-9]
Reactor Rate Modulation oscillation analysis with two detectors in Double Chooz, T. Abrahao et al. (Double Chooz), JHEP 2101 (2021) 190, arXiv:2007.13431.
[DoubleChooz:2020vtr]
[4-10]
Precision constraints for three-flavor neutrino oscillations from the full MINOS+ and MINOS data set, P. Adamson et al. (MINOS+), Phys.Rev.Lett. 125 (2020) 131802, arXiv:2006.15208.
[MINOS:2020llm]
[4-11]
Search for Electron Antineutrino Appearance in a Long-baseline Muon Antineutrino Beam, K. Abe et al. (T2K), Phys.Rev.Lett. 124 (2020) 161802, arXiv:1911.07283.
[T2K:2019ird]
[4-12]
Constraint on the Matter-Antimatter Symmetry-Violating Phase in Neutrino Oscillations, K. Abe et al. (T2K), Nature 580 (2020) 339-344, arXiv:1910.03887.
[T2K:2019bcf]
[4-13]
First measurement of neutrino oscillation parameters using neutrinos and antineutrinos by NOvA, M. A. Acero et al. (NOvA), Phys.Rev.Lett. 123 (2019) 151803, arXiv:1906.04907.
[NOvA:2019cyt]
[4-14]
Final results on neutrino oscillation parameters from the OPERA experiment in the CNGS beam, N. Agafonova et al. (OPERA), Phys.Rev. D100 (2019) 051301, arXiv:1904.05686.
[OPERA:2019kzo]
[4-15]
Search for light sterile neutrinos with the T2K far detector Super-Kamiokande at a baseline of 295 km, K. Abe et al. (T2K), Phys.Rev. D99 (2019) 071103, arXiv:1902.06529.
[T2K:2019efw]
[4-16]
First Double Chooz $\mathbf{\theta_{13}}$ Measurement via Total Neutron Capture Detection, H. de Kerret et al. (Double Chooz), Nature Phys. 16 (2020) 558-564, arXiv:1901.09445.
[DoubleChooz:2019qbj]
[4-17]
Measurement of electron antineutrino oscillation with 1958 days of operation at Daya Bay, D. Adey et al. (Daya Bay), Phys.Rev.Lett. 121 (2018) 241805, arXiv:1809.02261.
[DayaBay:2018yms]
[4-18]
Search for CP violation in Neutrino and Antineutrino Oscillations by the T2K experiment with $2.2\times10^{21}$ protons on target, K. Abe et al. (T2K), Phys.Rev.Lett. 121 (2018) 171802, arXiv:1807.07891.
[T2K:2018rhz]
[4-19]
Measurement of Reactor Antineutrino Oscillation Amplitude and Frequency at RENO, G. Bak et al. (RENO), Phys.Rev.Lett. 121 (2018) 201801, arXiv:1806.00248.
[RENO:2018dro]
[4-20]
New constraints on oscillation parameters from $\nu_e$ appearance and $\nu_\mu$ disappearance in the NOvA experiment, M. A. Acero et al. (NOvA), Phys.Rev. D98 (2018) 032012, arXiv:1806.00096.
[NOvA:2018gge]
[4-21]
Final results of the OPERA experiment on $\nu_\tau$ appearance in the CNGS beam, N. Agafonova et al. (OPERA), Phys.Rev.Lett. 120 (2018) 211801, arXiv:1804.04912.
[OPERA:2018nar]
[4-22]
Final results of the search for $\nu_\mu \to \nu_{e}$ oscillations with the OPERA detector in the CNGS beam, N. Agafonova et al. (OPERA), JHEP 06 (2018) 151, arXiv:1803.11400.
[OPERA:2018ksq]
[4-23]
Measurement of neutrino and antineutrino oscillations by the T2K experiment including a new additional sample of $\nu_e$ interactions at the far detector, K. Abe et al. (T2K), Phys.Rev. D96 (2017) 092006, arXiv:1707.01048.
[T2K:2017rgv]
[4-24]
Updated T2K measurements of muon neutrino and antineutrino disappearance using 1.5e21 protons on target, K. Abe et al. (T2K), Phys.Rev. D96 (2017) 011102, arXiv:1704.06409.
[T2K:2017krm]
[4-25]
Measurement of the neutrino mixing angle $\theta_{23}$ in NOvA, P. Adamson et al. (NOvA), Phys.Rev.Lett. 118 (2017) 151802, arXiv:1701.05891.
[NOvA:2017ohq]
[4-26]
First combined analysis of neutrino and antineutrino oscillations at T2K, K. Abe et al. (T2K), Phys.Rev.Lett. 118 (2017) 151801, arXiv:1701.00432.
[T2K:2017hed]
[4-27]
Measurement of electron antineutrino oscillation based on 1230 days of operation of the Daya Bay experiment, F. P. An et al. (Daya Bay), Phys.Rev. D95 (2017) 072006, arXiv:1610.04802.
[DayaBay:2016ggj]
[4-28]
Spectral Measurement of the Electron Antineutrino Oscillation Amplitude and Frequency using 500 Live Days of RENO Data, S. H. Seo et al. (RENO), Phys.Rev. D98 (2018) 012002, arXiv:1610.04326.
[RENO:2016ujo]
[4-29]
Sensitivity of the T2K accelerator-based neutrino experiment with an Extended run to $20\times10^{21}$ POT, K. Abe et al. (T2K), arXiv:1607.08004, 2016.
[T2K:2016siu]
[4-30]
A search for sterile neutrinos mixing with muon neutrinos in MINOS, P. Adamson et al. (MINOS), Phys. Rev. Lett. 117 (2016) 151803, arXiv:1607.01176.
[MINOS:2016viw]
[4-31]
Improved Search for a Light Sterile Neutrino with the Full Configuration of the Daya Bay Experiment, F.P. An et al. (Daya Bay), Phys. Rev. Lett. 117 (2016) 151802, arXiv:1607.01174.
[DayaBay:2016qvc]
[4-32]
New measurement of $\theta_{13}$ via neutron capture on hydrogen at Daya Bay, F. P. An et al. (Daya Bay), Phys. Rev. D93 (2016) 072011, arXiv:1603.03549.
[DayaBay:2016ziq]
[4-33]
First measurement of muon-neutrino disappearance in NOvA, P. Adamson et al. (NOvA), Phys. Rev. D93 (2016) 051104, arXiv:1601.05037.
[NOvA:2016vij]
[4-34]
First measurement of electron neutrino appearance in NOvA, P. Adamson et al. (NOvA), Phys. Rev. Lett. 116 (2016) 151806, arXiv:1601.05022.
[NOvA:2016kwd]
[4-35]
Measurement of muon anti-neutrino oscillations with an accelerator-produced off-axis beam, K. Abe et al. (T2K), Phys. Rev. Lett. 116 (2016) 181801, arXiv:1512.02495.
[T2K:2015gcs]
[4-36]
Observation of Energy and Baseline Dependent Reactor Antineutrino Disappearance in the RENO Experiment, J.H. Choi et al. (RENO), Phys. Rev. Lett. 116 (2016) 211801, arXiv:1511.05849.
[RENO:2015ksa]
[4-37]
Measurement of $\theta_{13}$ in Double Chooz using neutron captures on hydrogen with novel background rejection techniques, Y. Abe et al. (Double Chooz), JHEP 01 (2016) 163, arXiv:1510.08937.
[DoubleChooz:2015mfm]
[4-38]
Discovery of tau neutrino appearance in the CNGS neutrino beam with the OPERA experiment, N. Agafonova et al. (OPERA), Phys. Rev. Lett. 115 (2015) 121802, arXiv:1507.01417.
[OPERA:2015wbl]
[4-39]
A new measurement of antineutrino oscillation with the full detector configuration at Daya Bay, F. P. An et al. (Daya Bay), Phys. Rev. Lett. 115 (2015) 111802, arXiv:1505.03456.
[DayaBay:2015ayh]
[4-40]
Limits on muon-neutrino to tau-neutrino oscillations induced by a sterile neutrino state obtained by OPERA at the CNGS beam, N. Agafonova et al. (OPERA), JHEP 1506 (2015) 069, arXiv:1503.01876.
[OPERA:2015zci]
[4-41]
Some conclusive considerations on the comparison of the ICARUS $\nu_\mu \to \nu_e$ oscillation search with the MiniBooNE low-energy event excess, M. Antonello et al., arXiv:1502.04833, 2015.
[Antonello:2015jxa]
[4-42]
Measurements of neutrino oscillation in appearance and disappearance channels by the T2K experiment with 6.6E20 protons on target, K. Abe et al. (T2K), Phys. Rev. D91 (2015) 072010, arXiv:1502.01550.
[T2K:2015sqm]
[4-43]
Observation of tau neutrino appearance in the CNGS beam with the OPERA experiment, N. Agafonova et al. (OPERA), PTEP 2014 (2014) 101C01, arXiv:1407.3513.
[OPERA:2014nnd]
[4-44]
Improved measurements of the neutrino mixing angle $\theta_{13}$ with the Double Chooz detector, Y. Abe et al. (Double Chooz), JHEP 10 (2014) 086, arXiv:1406.7763. [Erratum: JHEP 02, 074 (2015)].
[DoubleChooz:2014kuw]
[4-45]
Independent Measurement of $\vartheta_{13}$ via Neutron Capture on Hydrogen at Daya Bay, F. P. An et al. (Daya Bay), Phys. Rev. D90 (2014) 071101, arXiv:1406.6468.
[DayaBay:2014fud]
[4-46]
Precise Measurement of the Neutrino Mixing Parameter $\theta_{23}$ from Muon Neutrino Disappearance in an Off-axis Beam, K. Abe et al. (T2K), Phys. Rev. Lett. 112 (2014) 181801, arXiv:1403.1532.
[T2K:2014ghj]
[4-47]
Combined analysis of $\nu_{\mu}$ disappearance and $\nu_{\mu} \rightarrow \nu_{e}$ appearance in MINOS using accelerator and atmospheric neutrinos, P. Adamson et al. (MINOS), Phys. Rev. Lett. 112 (2014) 191801, arXiv:1403.0867.
[MINOS:2014rjg]
[4-48]
Background-independent measurement of $\theta_{13}$ in Double Chooz, Y. Abe et al. (Double Chooz), Phys.Lett. B735 (2014) 51-56, arXiv:1401.5981.
[DoubleChooz:2014ppz]
[4-49]
Evidence for $\nu_\mu\to\nu_\tau$ appearance in the CNGS neutrino beam with the OPERA experiment, N. Agafonova et al. (OPERA), Phys. Rev. D89 (2014) 051102, arXiv:1401.2079.
[OPERA:2014fax]
[4-50]
Observation of Electron Neutrino Appearance in a Muon Neutrino Beam, K. Abe et al. (T2K), Phys. Rev. Lett. 112 (2014) 061802, arXiv:1311.4750.
[T2K:2013ppw]
[4-51]
Spectral measurement of electron antineutrino oscillation amplitude and frequency at Daya Bay, F.P. An et al. (Daya Bay), Phys. Rev. Lett. 112 (2014) 061801, arXiv:1310.6732.
[DayaBay:2013yxg]
[4-52]
New results on $\nu_\mu \to \nu_\tau$ appearance with the OPERA experiment in the CNGS beam, N. Agafonova et al. (OPERA), JHEP 1311 (2013) 036, arXiv:1308.2553.
[OPERA:2013tlg]
[4-53]
Measurement of Neutrino Oscillation Parameters from Muon Neutrino Disappearance with an Off-axis Beam, K. Abe et al. (T2K), Phys. Rev. Lett. 111, 211803 (2013) 211803, arXiv:1308.0465.
[T2K:2013bzi]
[4-54]
Search for anomalies in the $\nu_e$ appearance from a $\nu_\mu$ beam, M. Antonello et al. (ICARUS), Eur.Phys.J. C73 (2013) 2599, arXiv:1307.4699.
[ICARUS:2013cwr]
[4-55]
Measurement of Neutrino and Antineutrino Oscillations Using Beam and Atmospheric Data in MINOS, P. Adamson et al. (MINOS), Phys. Rev. Lett. 110 (2013) 251801, arXiv:1304.6335.
[MINOS:2013utc]
[4-56]
Evidence of Electron Neutrino Appearance in a Muon Neutrino Beam, K. Abe et al. (T2K), Phys. Rev. D88 (2013) 032002, arXiv:1304.0841.
[T2K:2013bqz]
[4-57]
Search for $\nu_\mu\to\nu_e$ oscillations with the OPERA experiment in the CNGS beam, N. Agafonova et al. (OPERA), JHEP 1307 (2013) 004, arXiv:1303.3953.
[OPERA:2013wvp]
[4-58]
Electron neutrino and antineutrino appearance in the full MINOS data sample, P. Adamson et al. (MINOS), Phys. Rev. Lett. 110 (2013) 171801, arXiv:1301.4581.
[MINOS:2013xrl]
[4-59]
First Measurement of $\theta_{13}$ from Delayed Neutron Capture on Hydrogen in the Double Chooz Experiment, Y. Abe et al. (Double Chooz), Phys.Lett. B723 (2013) 66-70, arXiv:1301.2948.
[DoubleChooz:2013dxe]
[4-60]
Improved Measurement of Electron Antineutrino Disappearance at Daya Bay, F. P. An et al. (Daya Bay), Chin. Phys. C37 (2013) 011001, arXiv:1210.6327.
[DayaBay:2012yjv]
[4-61]
Experimental search for the LSND anomaly with the ICARUS detector in the CNGS neutrino beam, M Antonello, B Baibussinov, P Benetti, E Calligarich, N Canci et al. (ICARUS), Eur.Phys.J. C73 (2013) 2345, arXiv:1209.0122.
[Antonello:2012pq]
[4-62]
Observation of Reactor Electron Antineutrino Disappearance in the RENO Experiment, Soo-Bong Kim et al. (RENO), Phys. Rev. Lett. 108 (2012) 191802, arXiv:1204.0626.
[RENO:2012mkc]
[4-63]
Demonstration of Communication using Neutrinos, D.D. Stancil et al., Mod. Phys. Lett. A27 (2012) 1250077, arXiv:1203.2847.
[MINERvA:2012rrj]
[4-64]
Observation of electron-antineutrino disappearance at Daya Bay, F. P. An et al. (Daya Bay), Phys. Rev. Lett. 108 (2012) 171803, arXiv:1203.1669.
[DayaBay:2012fng]
[4-65]
A side-by-side comparison of Daya Bay antineutrino detectors, F. P. An et al. (Daya Bay), Nucl. Instrum. Meth. A685 (2012) 78-97, arXiv:1202.6181.
[DayaBay:2012aa]
[4-66]
An improved measurement of muon antineutrino disappearance in MINOS, P. Adamson et al. (MINOS), Phys. Rev. Lett. 108 (2012) 191801, arXiv:1202.2772.
[MINOS:2012dbe]
[4-67]
Search for Lorentz invariance and CPT violation with muon antineutrinos in the MINOS Near Detector, P. Adamson et al. (MINOS), Phys. Rev. D85 (2012) 031101, arXiv:1201.2631.
[MINOS:2012ozn]
[4-68]
First Muon-Neutrino Disappearance Study with an Off-Axis Beam, K. Abe et al. (T2K), Phys. Rev. D85 (2012) 031103, arXiv:1201.1386.
[T2K:2012qoq]
[4-69]
Indication for the disappearance of reactor electron antineutrinos in the Double Chooz experiment, Y. Abe et al. (DOUBLE-CHOOZ), Phys. Rev. Lett. 108 (2012) 131801, arXiv:1112.6353.
[DoubleChooz:2011ymz]
[4-70]
Search for the disappearance of muon antineutrinos in the NuMI neutrino beam, P. Adamson et al. (MINOS), Phys. Rev. D84 (2011) 071103, arXiv:1108.1509.
[MINOS:2011xqg]
[4-71]
Improved search for muon-neutrino to electron-neutrino oscillations in MINOS, P. Adamson et al. (MINOS), Phys. Rev. Lett. 107 (2011) 181802, arXiv:1108.0015.
[MINOS:2011amj]
[4-72]
Search for $\nu_{\mu}\to\nu_{\tau}$ oscillation with the OPERA experiment in the CNGS beam, N. Agafonova et al. (OPERA), arXiv:1107.2594, 2011.
[OPERA:2011oja]
[4-73]
Indication of Electron Neutrino Appearance from an Accelerator-produced Off-axis Muon Neutrino Beam, K. Abe et al. (T2K), Phys. Rev. Lett. 107 (2011) 041801, arXiv:1106.2822.
[T2K:2011ypd]
[4-74]
Active to sterile neutrino mixing limits from neutral-current interactions in MINOS, P. Adamson et al. (MINOS), Phys. Rev. Lett. 107 (2011) 011802, arXiv:1104.3922.
[MINOS:2011ysd]
[4-75]
First direct observation of muon antineutrino disappearance, P. Adamson et al. (MINOS), Phys. Rev. Lett. 107 (2011) 021801, arXiv:1104.0344.
[MINOS:2011qho]
[4-76]
Measurement of the neutrino mass splitting and flavor mixing by MINOS, P. Adamson et al. (MINOS), Phys. Rev. Lett. 106 (2011) 181801, arXiv:1103.0340.
[MINOS:2011neo]
[4-77]
A Search for Lorentz Invariance and CPT Violation with the MINOS Far Detector, P. Adamson et al. (MINOS), Phys. Rev. Lett. 105 (2010) 151601, arXiv:1007.2791.
[MINOS:2010kat]
[4-78]
Observation of a first $\nu_\tau$ candidate in the OPERA experiment in the CNGS beam, N. Agafonova et al. (OPERA), Phys. Lett. B691 (2012) 138-145, arXiv:1006.1623.
[Efthymiopoulos:2012wfa]
[4-79]
New constraints on muon-neutrino to electron-neutrino transitions in MINOS, P. Adamson et al. (MINOS), Phys. Rev. D82 (2010) 051102, arXiv:1006.0996.
[MINOS:2010rug]
[4-80]
Search for sterile neutrino mixing in the MINOS long- baseline experiment, P. Adamson et al. (The MINOS), Phys. Rev. D81 (2010) 052004, arXiv:1001.0336.
[MINOS:2010fgd]
[4-81]
Search for active neutrino disappearance using neutral-current interactions in the MINOS long-baseline experiment, P. Adamson et al. (MINOS), Phys. Rev. Lett. 101 (2008) 221804, arXiv:0807.2424.
[MINOS:2008ccf]
[4-82]
Measurement of Neutrino Oscillations with the MINOS Detectors in the NuMI Beam, P. Adamson et al. (MINOS), Phys. Rev. Lett. 101 (2008) 131802, arXiv:0806.2237.
[MINOS:2008kxu]
[4-83]
A Study of Muon Neutrino Disappearance Using the Fermilab Main Injector Neutrino Beam, P. Adamson et al. (MINOS), Phys. Rev. D77 (2008) 072002, arXiv:0711.0769.
From the abstract: We report the results of a search for $\nu_{\mu}$ disappearance by the Main Injector Neutrino Oscillation Search [Go]. The experiment uses two detectors separated by 734 km to observe a beam of neutrinos created by the Neutrinos at the Main Injector facility at Fermi National Accelerator Laboratory.... Based on measurements in the Near Detector, in the absence of neutrino oscillations we expected $ 336 \pm 14 $ $\nu_{\mu}$ charged-current interactions at the Far Detector but observed 215. This deficit of events corresponds to a significanc e of 5.2 standard deviations. The deficit is energy dependent and is consistent with two-flavor neutrino oscillations according to $ \Delta{m}^{2} = 2.74 {}^{+0.44}_{-0.26} \times 10^{-3} \, \text{eV}^{2} $ and $ \sin^2 2\vartheta > 0.87 $ at 68\% confidence level.
[MINOS:2007ixr]
[4-84]
First CNGS events detected by LVD, N. Yu. Agafonova et al., Eur. Phys. J. C52 (2007) 849-855, arXiv:0710.1536.
[Agafonova:2007sd]
[4-85]
First events from the CNGS neutrino beam detected in the OPERA experiment, R. Acquafredda et al. (OPERA), New J. Phys. 8 (2006) 303, arXiv:hep-ex/0611023.
[OPERA:2006oat]
[4-86]
Observation of muon neutrino disappearance with the MINOS detectors and the NuMI neutrino beam, D.G. Michael et al. (MINOS), Phys. Rev. Lett. 97 (2006) 191801, arXiv:hep-ex/0607088.
From the abstract: The data are consistent with muon neutrino disappearance via oscillation with $ |\Delta m^2_{23}| = 2.74 {}^{+0.44}_{-0.26} \times 10^{-3} \, \text{eV}^2/c^4 $ and $ sin^2(2\theta_{23}) > 0.87 $ (68% C.L.).
[MINOS:2006foh]
[4-87]
Measurement of neutrino oscillation by the K2K experiment, M. H. Ahn et al. (K2K), Phys. Rev. D74 (2006) 072003, arXiv:hep-ex/0606032.
[K2K:2006yov]
[4-88]
An improved search for $ \nu_\mu \to \nu_e $ oscillation in a long-baseline accelerator experiment, S. Yamamoto et al. (K2K), Phys. Rev. Lett. 96 (2006) 181801, arXiv:hep-ex/0603004.
From the abstract: At $ \Delta{m}^2 = 2.8 \times 10^{-3} \, \text{eV}^2 $, the best fit value of the K2K $\nu_\mu$ disappearance analysis, we set an upper limit of $ \sin^2 2\theta_{\mu e} < 0.13 $ at 90\% confidence level.
[K2K:2006wtf]
[4-89]
Evidence for muon neutrino oscillation in an accelerator-based experiment, E. Aliu et al. (K2K), Phys. Rev. Lett. 94 (2005) 081802, arXiv:hep-ex/0411038.
[K2K:2004iot]
[4-90]
Measurement of Neutrino Oscillation with KamLAND: Evidence of Spectral Distortion, T. Araki et al. (KamLAND), Phys. Rev. Lett. 94 (2005) 081801, arXiv:hep-ex/0406035.
[KamLAND:2004mhv]
[4-91]
Search for electron neutrino appearance in a 250-km long- baseline experiment, M. H. Ahn et al. (K2K), Phys. Rev. Lett. 93 (2004) 051801, arXiv:hep-ex/0402017.
[K2K:2004tri]
[4-92]
Search for neutrino oscillations on a long base-line at the CHOOZ nuclear power station, M. Apollonio et al. (CHOOZ), Eur. Phys. J. C27 (2003) 331, arXiv:hep-ex/0301017.
Comment: The (new) results obtained by using the prescription of Feldman and Cousins with the correct inclusion of systematics indicate that $\bar{\nu}_e \to \bar{\nu}_x$ oscillations are excluded for mixing angles $\sin^2 2 \vartheta \geq 0.16 $ at high $\Delta m^2$ values. The limit obtained here is significantly higher than the one quoted in previous publication : ($\sin^2 2 \vartheta \geq 0.10 $ at high $\Delta m^2$ values). (M.L.).
[CHOOZ:2002qts]
[4-93]
First Results from KamLAND: Evidence for Reactor Anti-Neutrino Disappearance, K. Eguchi et al. (KamLAND), Phys. Rev. Lett. 90 (2003) 021802, arXiv:hep-ex/0212021.
From the abstract: In an exposure of 162 ton$\cdot$yr (145.1 days) the ratio of the number of observed inverse $\beta$-decay events to the expected number of events without disappearance is $0.611\pm 0.085 {\rm (stat)} \pm 0.041 {\rm (syst)} $ for $\bar{\nu}_e$ energies $>$ 3.4 MeV. The deficit of events is inconsistent with the expected rate for standard $\bar{\nu}_e$ propagation at the 99.95% confidence level. In the context of two-flavor neutrino oscillations with CPT invariance, these results exclude all oscillation solutions but the 'Large Mixing Angle' solution to the solar neutrino problem using reactor $\bar{\nu}_e$ sources.
[KamLAND:2002uet]
[4-94]
Indications of Neutrino Oscillation in a 250 km Long- baseline Experiment, M. H. Ahn et al. (K2K), Phys. Rev. Lett. 90 (2003) 041801, arXiv:hep-ex/0212007.
From the abstract: The K2K experiment observes indications of neutrino oscillation: a reduction of $\nu_\mu$ flux together with a distortion of the energy spectrum. Fifty-six beam neutrino events are observed in Super-Kamiokande (SK), 250 km from the neutrino production point, with an expectation of $80.1^{+6.2}_{-5.4}$.
From the article: Best Fit: $ \Delta{m}^2 = 2.8 \times 10^{-3} \, \mathrm{eV}^2 $, $ \sin^22\vartheta = 1.0 $.... The measured oscillation parameters are consistent with the ones suggested by atmospheric neutrinos. At the time of this letter the K2K experiment has collected approximately one-half of its planned $10^{20}$ protons on target.
[K2K:2002icj]
[4-95]
Detection of accelerator produced neutrinos at a distance of 250-km, S. H. Ahn et al. (K2K), Phys. Lett. B511 (2001) 178-184, arXiv:hep-ex/0103001.
[K2K:2001nlz]

5 - Experiment - Talks

[5-1]
Results and Prospects of T2K, T. Nosek (T2K), arXiv:2310.11942, 2023. 2023 Electroweak session of the 57th Rencontres de Moriond.
[Nosek:2023ilx]
[5-2]
Long Baseline Neutrino Oscillation Results (T2K and NOvA), Son Cao, arXiv:2310.09855, 2023. 19th Rencontres du Vietnam: Windows on the Universe.
[Cao:2023hwq]
[5-3]
Recent results from NOvA, Erika Catano-Mur (NOvA), arXiv:2206.03542, 2022. 2022 EW session of the 56th Rencontres de Moriond.
[Catano-Mur:2022kyq]
[5-4]
Recent Results from T2K, Lukas Berns, arXiv:2105.06732, 2021. 2021 EW session of the 55th Rencontres de Moriond.
[Berns:2021iss]
[5-5]
NOvA Recent Results with Neutrino+Antineutrino Data, Tomas Nosek, arXiv:1905.09109, 2019. New Trends in High-Energy Physics 2018.
[Nosek:2019ixo]
[5-6]
Results and Prospects from NOvA, Jianming Bian, PoS NuFACT2018 (2019) 005, arXiv:1812.09585. 20th International Workshop on Neutrinos from Accelerators (NuFACT2018), 12-18 August 2018, Blacksburg, Virginia.
[Bian:2018vrm]
[5-7]
Impact of cross section uncertainties on NOvA oscillation analyses, Jeremy Wolcott (NOvA), PoS NuFACT2018 (2019) 098, arXiv:1812.05653. 20th International Workshop on Neutrinos From Accelerators, 12-18 August, 2018, Blacksburg, VA, USA.
[Wolcott:2018crq]
[5-8]
Latest results of the OPERA experiment on nu-tau appearance in the CNGS neutrino beam, N. Agafonova et al. (OPERA), SciPost Phys.Proc. 1 (2019) 028, arXiv:1811.00095. 15th International Workshop on Tau Lepton Physics.
[OPERA:2018fsq]
[5-9]
Latest results from T2K, S. V. Cao, arXiv:1805.05917, 2018. Moriond EW 2018.
[Cao:2018vdk]
[5-10]
Latest results from T2K and T2K Phase II, Claudio Giganti, arXiv:1803.11513, 2018. NuPhys2017 (London, 20-22 December 2017).
[Giganti:2018cpp]
[5-11]
Recent Results from RENO, Myoung Youl Pac (RENO), PoS NuFact2017 (2018) 038, arXiv:1801.04049. NUFACT 2017.
[Pac:2018scx]
[5-12]
New Results from RENO using 1500 Days of Data, Seon-Hee Seo (RENO), J.Phys.Conf.Ser. 1342 (2020) 012045, arXiv:1710.08204. TAUP 2017, Sudbury, ON, Canada, 24-28 July 2017.
[Seo:2017ozk]
[5-13]
Extracting neutrino oscillation parameters using a simultaneous fit of the $\nu_{e}$ appearance and $\nu_\mu$ disappearance data in the NOvA experiment, Prabhjot Singh, arXiv:1710.03829, 2017. APS Division of Particles and Fields Meeting (DPF 2017), July 31-August 4, 2017, Fermilab.
[Singh:2017thk]
[5-14]
Sterile neutrino search in the NOvA Far Detector, Sijith Edayath et al., arXiv:1710.01280, 2017. APS Division of Particles and Fields Meeting (DPF 2017), July 31-August 4, 2017, Fermilab.
[Edayath:2017cpi]
[5-15]
The latest T2K neutrino oscillation results, L.Haegel (T2K), PoS EPS-HEP2017 (2017) 112, arXiv:1709.04180. EPS-HEP 2017.
[Haegel:2017ofz]
[5-16]
New Constraints on Sterile Neutrinos with MINOS/MINOS+ and Daya Bay, Thomas Joseph Carroll, arXiv:1705.05064, 2017. 52nd Rencontres de Moriond EW 2017.
[Carroll:2017xps]
[5-17]
Latest Results from T2K, Marcela Batkiewicz (T2K), arXiv:1705.04277, 2017. 17th Lomonosov Conference on Elementary Particle Physics (20 - 26 August 2015, Moscow, Russia).
[Batkiewicz:2017xoh]
[5-18]
Results from the OPERA Experiment, L. Patrizii (OPERA), arXiv:1705.02454, 2017. NuPhys2016 (London, 12-14 December 2016).
[Patrizii:2017wcj]
[5-19]
Current Status and Future Plans of T2K, Kirsty Duffy (T2K), arXiv:1705.01764, 2017. NuPhys2016 (London, 12-14 December 2016).
[Duffy:2017sfs]
[5-20]
T2K near detector constraints for oscillation results, L. Haegel, arXiv:1701.02559, 2017. NuFact 2016.
[Haegel:2017zmk]
[5-21]
Latest Results from MINOS and MINOS+, Simon De Rijck (MINOS+, MINOS), J. Phys. Conf. Ser. 873 (2017) 012032.
[DeRijck:2017ynh]
[5-22]
Recent Results of Electron-Neutrino Appearance Measurement at NOvA, Jianming Bian (NOvA), PoS ICHEP2016 (2017) 516, arXiv:1611.07480. ICHEP 2016.
[Bian:2016iga]
[5-23]
Results from the OPERA experiment, Donato Di Ferdinando (OPERA), arXiv:1608.01595, 2016. NuPhys2015 (London, 16-18 December 2015).
[DiFerdinando:2016wbk]
[5-24]
Results and Prospects from the Daya Bay Reactor Neutrino Experiment, A. Higuera (Daya Bay), arXiv:1607.07324, 2016. Seventh Meeting on CPT and Lorentz Symmetry, Bloomington, Indiana, June 20-24, 2016.
[Higuera:2016vcm]
[5-25]
Results and Prospects from T2K, Kirsty Duffy, arXiv:1607.03323, 2016. NuFact15 (10-15 August 2015, Rio de Janeiro).
[Duffy:2016phs]
[5-26]
Discovery of Tau Neutrino Appearance and Recent Results from OPERA, T. Fukuda (OPERA), Nuovo Cim. C39 (2017) 315, arXiv:1606.04632. LaThuile2016, the XXXth Rencontres de Physique de la Vallee d'Aoste, March 6-12, 2016, La Thuile, Aosta Valley, Italy.
[Fukuda:2016hfa]
[5-27]
Recent results from T2K, Mark Scott (T2K), Nuovo Cim. C39 (2017) 316, arXiv:1606.01217. Les Rencontres de Physique de la Vallee d'Aoste, La Thuile, Aosta Valley, Italy, March 6-12, 2016.
[Scott:2016bqf]
[5-28]
Measurement of antineutrino oscillation with the full detector configuration at Daya Bay, Marco Grassi (Daya Bay), PoS LeptonPhoton2015 (2016) 095, arXiv:1605.09122. 27th International Symposium on Lepton Photon Interactions at High Energies.
[Grassi:2016skh]
[5-29]
First Antineutrino Oscillation Results from T2K, Kirsty Duffy, arXiv:1605.01626, 2016. NuPhys2015 (London, 16-18 December 2015).
[Duffy:2016iar]
[5-30]
Neutrino Oscillations with MINOS and MINOS+, Leigh H. Whitehead (MINOS), Nucl. Phys. B908 (2016) 130-150, arXiv:1601.05233.
[Whitehead:2016xud]
[5-31]
Results from RENO and prospects with RENO-50, Kyung Kwang Joo, 2016. Neutrino 2016, XXVII International Conference on Neutrino Physics and Astrophysics, 4-9 July 2016, London, UK. http://neutrino2016.iopconfs.org/IOP/media/uploaded/EVIOP/event_948/09.45___2_.ppt.
[RENO-Nu2016]
[5-32]
Recent result from RENO, Hyunkwan Seo (RENO), J. Phys. Conf. Ser. 718 (2016) 062053. TAUP 2015.
[Seo:2016dbz]
[5-33]
Latest nH analysis in the Double Chooz experiment, Guang Yang (Double Chooz), arXiv:1511.00068, 2015. DPF 2015 Meeting of the American Physical Society Division of Particles and Fields, Ann Arbor, Michigan, August 4-8, 2015.
[Yang:2015nwf]
[5-34]
Current status of the T2K experiment, Yuichi Oyama (T2K), PoS PLANCK2015 (2015) 094, arXiv:1510.07200. 18th International Conference From the Planck Scale to the Electroweak Scale (Planck2015), Ioannina, Greece, May 25-29, 2015.
[Oyama:2015vea]
[5-35]
First Results of $\nu_e$ Appearance Analysis and Electron Neutrino Identification at NOvA, Jianming Bian (NOvA), arXiv:1510.05708, 2015. DPF 2015 Meeting of the American Physical Society Division of Particles and Fields, Ann Arbor, Michigan, August 4-8, 2015.
[Bian:2015opa]
[5-36]
Search for Sterile Neutrinos at OPERA and other Long-Baseline Experiments, Luca Stanco, PoS EPS-HEP2015 (2016) 057, arXiv:1510.04151. EPS2015, Vienna 22-29 July 2015.
[Stanco:2015sua]
[5-37]
OPERA neutrino oscillation search: status and perspectives, Giuliana Galati (OPERA), arXiv:1510.00343, 2015. CIPANP2015.
[Galati:2015ona]
[5-38]
First muon anti-neutrino disappearance oscillation results from T2K, Blair Jamieson (T2K), arXiv:1509.08889, 2015. CIPANP2015.
[Jamieson:2015rza]
[5-39]
Anti-neutrino oscillations with T2K, M. Ravonel Salzgeber (T2K), arXiv:1508.06153, 2015. EPS-HEP 2015.
[RavonelSalzgeber:2015wna]
[5-40]
Results from the MINOS Experiment and New MINOS+ Data, A. Holin (MINOS+), PoS NUFACT2014 (2014) 028, arXiv:1507.08564. 2014 NuFact.
[Holin:2015lya]
[5-41]
Recent Results from Daya Bay, Liang Zhan (Daya Bay), PoS NEUTEL2015 (2015) 017, arXiv:1506.01149. NEUTEL 2015.
[Zhan:2015aha]
[5-42]
Recent Results from Daya Bay Reactor Neutrino Experiment, Bei-Zhen Hu (Daya Bay), arXiv:1505.03641, 2015. Moriond 2015 EW Session.
[Hu:2015gva]
[5-43]
Recent Results From The Daya Bay Experiment, Chao Zhang (Daya Bay), AIP Conf. Proc. 1666 (2015) 080003, arXiv:1501.04991. Neutrino 2014, 2-7 June 2014, Boston, Massachusetts, USA.
[Zhang:2015fya]
[5-44]
Results from T2K, Martin David Haigh, arXiv:1501.04283, 2015. Interplay between Particle and Astroparticle Physics (IPA 2014), 18-22 August 2014 Queen Mary University of London.
[Haigh:2015uja]
[5-45]
Results from MINOS and NOvA, C Backhouse, J. Phys. Conf. Ser. 598 (2015) 012004, arXiv:1501.01016. NuPHYS 2013.
[Backhouse:2015nga]
[5-46]
Operational Status and Power Upgrade Prospects of the Neutrino Experimental Facility at J-PARC, Taku Ishida (T2K Beam Group), JPS Conf. Proc. 8 (2015) 023012, arXiv:1411.5540. 2nd international symposium on science at J-PARC (J-PARC 2014), Tsukuba, Ibaraki, Japan on July 2014.
[Ishida:2014uxa]
[5-47]
New Results from RENO and The 5 MeV Excess, Seon-Hee Seo (RENO), AIP Conf. Proc. 1666 (2015) 080002, arXiv:1410.7987. Neutrino 2014.
[Seo:2014xei]
[5-48]
Opera Highlights, Thomas Strauss (OPERA), Acta Polytech. 53 (2013) 512-517, arXiv:1405.6847. 2012 Volcano Workshop: Frontier Objects in Astrophysics and Particle Physics.
[Strauss:2013ivy]
[5-49]
Oscillation results from T2K, Patrick de Perio (T2K), arXiv:1405.3871, 2014. Rencontres de Moriond Electroweak Interactions and Unified Theories Conference 2014.
[dePerio:2014zna]
[5-50]
Double Chooz: results towards the near detector phase, P. Novella (Double Chooz), arXiv:1405.3816, 2014. Rencontres de Moriond 2014.
[Novella:2014wna]
[5-51]
The Status of Double Chooz Experiment as a proceeding of PIC 2013 conference, Guang Yang (Double Chooz), arXiv:1403.6989, 2014.
[Yang:2014fua]
[5-52]
New Results from the Daya Bay Reactor Neutrino Experiment, Bei-Zhen Hu (Daya Bay), arXiv:1402.6439, 2014. 10th International Symposium on Cosmology and Particle Astrophysics (CosPA2013).
[Hu:2014tia]
[5-53]
Search for Neutrino Oscillations in Appearance Mode with the OPERA Experiment, T. A. Dzhatdoev, V. L. Troshina (OPERA), arXiv:1402.3861, 2014. HEPFT-2013.
[Dzhatdoev:2014qsa]
[5-54]
Recent results of the OPERA experiment, Fabio Pupilli (OPERA), arXiv:1401.6776, 2014. 14th ICATPP Conference, 23-27 September 2013, Villa Olmo - Como (Italy).
[Pupilli:2014xua]
[5-55]
Results from Daya Bay, Chao Zhang, 2014. Neutrino 2014, XXVI International Conference on Neutrino Physics and Astrophysics, 2-7 June 2014, Boston, Massachusetts, USA. https://indico.fnal.gov/getFile.py/access?contribId=256&sessionId=15&resId=0&materialId=slides&confId=8022.
[DayaBay-Nu2014]
[5-56]
Results from Double Chooz, H. de Kerret, 2014. Neutrino 2014, XXVI International Conference on Neutrino Physics and Astrophysics, 2-7 June 2014, Boston, Massachusetts, USA. https://indico.fnal.gov/getFile.py/access?contribId=254&sessionId=15&resId=0&materialId=slides&confId=8022.
[DoubleChooz-Nu2014]
[5-57]
Results from RENO, Seon-Hee Seo, 2014. Neutrino 2014, XXVI International Conference on Neutrino Physics and Astrophysics, 2-7 June 2014, Boston, Massachusetts, USA. https://indico.fnal.gov/getFile.py/access?contribId=255&sessionId=15&resId=0&materialId=slides&confId=8022.
[RENO-Nu2014]
[5-58]
New Results from the T2K Experiment: Observation of $\nu_e$ Appearance in a $\nu_\mu$ Beam, Michael Wilking (T2K), PoS EPS-HEP2013 (2013) 536, arXiv:1311.4114. EPS-HEP 2013.
[Wilking:2013vza]
[5-59]
Systematic Uncertainties at the T2K Experiment for Oscillation Measurements, A. Kaboth (T2K), arXiv:1310.6544, 2013. NuFact2013.
[Kaboth:2013gcw]
[5-60]
The NOvA Experiment: Overview and Status, Jianming Bian, arXiv:1309.7898, 2013. DPF 2013 Meeting of the American Physical Society Division of Particles and Fields, Santa Cruz, California, August 13-17, 2013.
[Bian:2013saa]
[5-61]
Rate-Only analysis with reactor-off data in the Double Chooz experiment, P. Novella (Double Chooz), arXiv:1305.2734, 2013.
[Novella:2013mca]
[5-62]
Study of Neutrino Oscillations in the OPERA Experiment, Umut Kose (OPERA), arXiv:1305.2513, 2013. Lake Louise Winter 2013 Conference, Banff, Alberta, Canada, 17-23 February 2013.
[Kose:2013jca]
[5-63]
The Improved Measurement of Electron-antineutrino Disappearance at Daya Bay, Daniel A. Dwyer (Daya Bay), Nucl. Phys. Proc. Suppl. 235-236 (2013) 30-32, arXiv:1303.3863. 25th International Conference on Neutrino Physics and Astrophysics (Neutrino 2012), Jun. 3-9, 2012, Kyoto, Japan.
[Dwyer:2013wqa]
[5-64]
An Improved Measurement of Electron Antineutrino Disappearance at Daya Bay, David M. Webber (Daya Bay), Nucl. Phys. Proc. Suppl. 233 (2012) 96-101, arXiv:1211.1609. BEACH 2012.
[Webber:2012vh]
[5-65]
Improved Measurement of Electron Antineutrino Disappearance at Daya Bay, Xin Qian (Daya Bay), arXiv:1211.0570, 2012. NuFact 2012.
[Qian:2012df]
[5-66]
First result from the Double Chooz reactor-neutrino experiment, Tsunayuki Matsubara (Double Chooz), arXiv:1205.6685, 2012. 47th Rencontres de Moriond EW session.
[Matsubara:2012uh]
[5-67]
New Results from the MINOS Experiment, Anna Holin (MINOS), PoS EPS-HEP2011 (2011) 088, arXiv:1201.3645. EPS 2011.
[Holin:2011xqb]
[5-68]
First Oscillation Results for the T2K Experiment, Mark Hartz (T2K), arXiv:1201.1846, 2012. Recontres de Moriond EW 2011.
[Hartz:2011rpm]
[5-69]
Observation of Electron Neutrino Disappearance at Daya Bay, Y. Wang, 2012. Institute of High Energy Physics, Mar. 8, 2012, Bejin, China. http://dayabay.ihep.ac.cn/docs/YFWang_DYB_observation.pdf.
[DYB1-2012]
[5-70]
Observation of Electron Neutrino Disappearance at Daya Bay, K.M. Heeger, 2012. Symposium on Electroweak Nuclear, March 8-9, 2012, Duke University, USA. http://neutrino.physics.wisc.edu/dayabay/2012-03-08-oscPRL/DYB_EWNP_v5.pdf.
[DYB2-2012]
[5-71]
Observation of Electron Neutrino Disappearance at Daya Bay, Y. Wang, 2012. CERN, Mar. 20, 2012, CERN, Switzerland. https://indico.cern.ch/conferenceDisplay.py?confId=181843.
[DYB3-2012]
[5-72]
Observation of Reactor Antineutrino Disappearance at RENO, Soo-Bong Kim, 2012. Fermilab on April 11, 2012. http://theory.fnal.gov/jetp/talks/RENO-results-seminar-new.pdf.
[RENO-120411]
[5-73]
New Oscillation Results from the T2K experiment, Alexander Izmaylov (T2K), arXiv:1112.0273, 2011. 15th Lomonosov Conference, August 18-24, 2011, MSU, Moscow, Russia.
[Izmaylov:2011np]
[5-74]
Latest oscillation results from T2K, Marat Khabibullin (T2K), arXiv:1111.0183, 2011. New Trends in High-Energy Physics, Alushta, Crimea, Ukraine, September 3-10, 2011.
[Khabibullin:2011dt]
[5-75]
T2K Results and Future Plans, Francesca Di Lodovico (T2K), J. Phys. Conf. Ser. 408 (2013) 012004, arXiv:1110.5382. NUFACT 11, XIIIth International Workshop on Neutrino Factories, Super beams and Beta beams, 1-6 August 2011, CERN and University of Geneva.
[DiLodovico:2011gx]
[5-76]
MINOS Search for Sterile Neutrinos, Alexandre Sousa (MINOS), J. Phys. Conf. Ser. 408 (2013) 012026, arXiv:1110.3455. NuFact 2011.
[Sousa:2011rw]
[5-77]
ICARUS and Status of Liquid Argon Technology, Dorota Stefan (ICARUS), J. Phys. Conf. Ser. 408 (2013) 012078, arXiv:1110.1652.
[Stefan:2011ca]
[5-78]
Search for Electron Neutrino Appearance in MINOS, Mhair Orchanian (MINOS), arXiv:1109.6795, 2011. 2011 DPF.
[Orchanian:2011qq]
[5-79]
Latest News from Double Chooz Reactor Neutrino Experiment, Masahiro Kuze (Double Chooz), AIP Conf. Proc. 1441 (2012) 461-463, arXiv:1109.0074. 19th Particles and Nuclei International Conference, PANIC 2011, MIT, Cambridge, MA July 2011.
[Kuze:2011ic]
[5-80]
Current status of the T2K experiment, Yuichi Oyama, T2K (T2K), J. Phys. Conf. Ser. 347 (2012) 012005, arXiv:1108.4457. 2nd International Conference on Particle Physics (ICPP-Istanbul II),Istanbul, Turkey, June 20-25, 2011.
[Oyama:2011pt]
[5-81]
Search for $\nu_{\mu} \to \nu_{\tau}$ oscillations in appearance mode in the OPERA experiment, Umut Kose, arXiv:1106.3871, 2011. Les Rencontres de Physique de la Vallee D'Aoste (La Thuile, February 27-March 5 2011).
[Kose:2011qw]
[5-82]
Search for $\nu_{\mu}\to\nu_{\tau}$ oscillations in appearance mode in the OPERA experiment, L. S. Esposito (OPERA), arXiv:1105.5239, 2011. WIN'11, Cape Town, South Africa, 31 January - 5 February 2011.
[Esposito:2011as]
[5-83]
Status of the Daya Bay Reactor Neutrino Oscillation Experiment, Cheng-Ju Lin (Daya Bay), PoS ICHEP2010 (2010) 305, arXiv:1101.0261. 35th International Conference of High Energy Physics, July 22-28, 2010, Paris, France.
[Lin:2010axk]
[5-84]
First results from the Double Chooz experiment, H. De Kerret (Double Chooz), 2011. LowNu11, 9-12, November, 2011, Seoul National University, Seoul, Korea. http://www.dchooz.org/DocDB/0033/003393/003/DCAtLowNu11_Kerret111109_Official.pdf.
[DeKerret-LowNu11]
[5-85]
Electron Neutrinos at T2K, Melissa George (T2K), arXiv:1006.1245, 2010.
[George:2010xk]
[5-86]
New Results for Muon Neutrino to Electron Neutrino Oscillations in the MINOS Experiment, R. Patterson, 2010. Fermi National Laboratory, 9 April 2010, FNAL, US. http://theory.fnal.gov/jetp/talks/patterson_wnc2010.pdf.
[Patterson:FNAL10]
[5-87]
The OPERA experiment: a direct search of the $\nu_\mu \longrightarrow \nu_\tau$ oscillations, J. Marteau, arXiv:0910.3468, 2009. 11th ICATPP Conference, Villa Olmo, Como, Italy, 5-9 October 2009.
[Marteau:2009rj]
[5-88]
First Observation of Accelerator Muon Antineutrinos in MINOS, Istvan Danko (MINOS), arXiv:0910.3439, 2009. DPF-2009 conference, Detroit, MI, July 27-31, 2009, eConf C090726.
[Danko:2009qw]
[5-89]
Analysis of Neutral Current Interactions in MINOS: A Search for Sterile Neutrinos, Alexandre Sousa (MINOS), arXiv:0910.1369, 2009. DPF-2009, Detroit, MI, July 2009.
[Sousa:2009wp]
[5-90]
The OPERA experiment: on the way to the direct observation of $\nu_\mu \to \nu_\tau$ oscillation, M. De Serio (OPERA), arXiv:0910.0337, 2009. DPF-2009, Detroit, MI, July 2009.
[DeSerio:2009vt]
[5-91]
Initial Results for Electron-Neutrino Appearance in MINOS, Mayly C. Sanchez (MINOS), arXiv:0909.2362, 2009. Rencontres de Moriond EW 2009.
[Sanchez:2009nb]
[5-92]
A High Precision Reactor Neutrino Detector for the Double Chooz Experiment, Fumihiko Suekane (Double Chooz), Nucl. Instrum. Meth. A623 (2010) 440-441, arXiv:0906.1639. TIPP09.
[Suekane:2009fy]
[5-93]
Status of the Double Chooz Experiment, J. V. Dawson (Double Chooz), arXiv:0905.4843, 2009. XIII International Workshop on Neutrino Telescopes (NEUTEL09), Venice, March 10-13, 2009.
[Dawson:2009nea]
[5-94]
The OPERA experiment: Preliminary results from the 2008 run, Guillaume Lutter, arXiv:0905.4521, 2009. Lake Louise Winter Institute 2009.
[Lutter:2009ce]
[5-95]
Status Report on Double Chooz, A. Porta et al. (Double Chooz), arXiv:0905.2560, 2009. 44th Rencontres de Moriond, Electroweak interactions and unified theories, 7-14 March 2009, La Thuile.
[Portaa:2009vlt]
[5-96]
Recent Results from the MINOS experiment, Milind V. Diwan, arXiv:0904.3706, 2009. XIII International Workshop on Neutrino Telescopes, March 10-13, 2009.
[Diwan:2009pn]
[5-97]
Recent Results and Future Prospects from MINOS, Jonathan M. Paley (MINOS), arXiv:0901.2131, 2009. PANIC 2008.
[Paley:2009sd]
[5-98]
Neutrino Oscillation Studies with MINOS, Patricia Vahle (MINOS), arXiv:0810.3627, 2008. 34th International Conference on High Energy Physics (ICHEP 2008), Philadelphia, Pennsylvania, 30 Jul - 5 Aug 2008.
[Vahle:2008qt]
[5-99]
New Results from the MINOS Experiment, Hugh Gallagher (MINOS), J. Phys. Conf. Ser. 136 (2008) 022014, arXiv:0809.5240. Neutrino 2008 Conference, Christchurch, NZ.
[Gallagher:2008tk]
[5-100]
Neutrino Oscillation Results from MINOS and MiniBooNE, Tobias M. Raufer, arXiv:0808.0392, 2008. Flavor Physics and CP Violation Conference, Taipei, 2008 (FPCP 2008).
[Raufer:2008aa]
[5-101]
Current NuMI/MINOS Oscillation Results, A. Habig (MINOS), arXiv:0805.2317, 2008. Moriond Electroweak conference, March 1-8 2008.
[Habig:2008ee]
[5-102]
Neutrino Spectra and Uncertainties for MINOS, Sacha E. Kopp (MINOS), AIP Conf. Proc. 981 (2008) 142-144, arXiv:0712.1280. NuFact07 (Okayama, Japan).
[Kopp:2007cx]
[5-103]
Preliminary Results from MINOS on Muon Neutrino Disappearance Based on an Exposure of 2.5x1020 120 GeV Protons on the NuMI Target, MINOS (MINOS), arXiv:0708.1495, 2007. XXIII International Symposium on Lepton and Photon Interactions at High Energy, Daegu Korea, August 13-18, 2007.
[MINOS:2007aa]
[5-104]
MINOS Results, Progress and Future Prospects, Tobias M. Raufer (MINOS), arXiv:0705.4655, 2007. XLIInd Rencontres de Moriond, Electroweak Interactions and Unified Theories, La Thuile, March 2007.
[Raufer:2007iw]
[5-105]
First MINOS Results with the NuMI Beam, Brian J. Rebel et al. (MINOS), Nucl. Phys. Proc. Suppl. 168 (2007) 195-198, arXiv:hep-ex/0701049. Neutrino Oscillation Workshop 2006.
[Rebel:2007ex]
[5-106]
Recent results from the MINOS experiment, Mary Bishai (MINOS), AIP Conf. Proc. 903 (2007) 271-274.
[Bishai:2007zz]
[5-107]
Latest Results from the MINOS Experiment, A. Blake (MINOS), 2007. TAUP 2007. http://www.awa.tohoku.ac.jp/taup2007/slides/workshop14/roomB/02-TAUP2007_MINOS.pdf.
[Blake-TAUP2007]
[5-108]
The Opera Experiment, G. Giacomelli, M. Giorgini (OPERA), arXiv:physics/0609045, 2006. Vulcano Workshop 2006, Frontier Objects in Astrophysics and Particle Physics, Vulcano, Italy, May 2006.
[Giacomelli:2006xn]
[5-109]
First MINOS Results from the NuMI Beam, Nathaniel Tagg et al. (MINOS), eConf C060409 (2006) 019, arXiv:hep-ex/0605058. Flavor Physics and CP Violation Conference, Vancouver, 2006.
[Tagg:2006sx]
[5-110]
Results from K2K and status of T2K, Yuichi Oyama, arXiv:hep-ex/0512041, 2005. International Conference on New Trends in High-Energy Physics (Crimea2005), Yalta, Ukraine, September 10-17, 2005.
[Oyama:2005mi]
[5-111]
The NuMI Neutrino Beam at Fermilab, Sacha E. Kopp, arXiv:physics/0508001, 2005. U.S. Particle Accelerator Conference, Knoxville, TN (May 2005).
[Kopp:2005bt]
[5-112]
Recent Results from K2K Experiment, C. Mariani (K2K), arXiv:hep-ex/0505019, 2005. 2005 Electroweak session, XXXXth Rencontres de Moriond.
[Mariani:2005pj]
[5-113]
HARP Experiment Results and K2K Flux, M. Sorel (Harp), 2005. 5th International Workshop on Neutrino Beams and Instrumentation,July 7-11, 2005, Fermilab, Batavia Illinois. http://www.hep.utexas.edu/nbi2005/transparencies/beamMChadprod/sorel-HARP-results.pdf.
[Sorel:NBI2005]
[5-114]
Recent K2K Results, Takanobu Ishii (K2K), arXiv:hep-ex/0406055, 2004. 5th Workshop on Neutrino Oscillations and their Origin (NOON2004), Tokyo, Japan, February 11-15,2004.
[Ishii:2004wu]
[5-115]
Recent results from K2K, Taiki Iwashita, arXiv:hep-ex/0406051, 2004. XXXIXth Rencontres de Moriond session devoted to Electroweak Interactions and Unified Theories.
[Iwashita:2004sx]
[5-116]
Results from the KamLAND experiment, G. Gratta (KamLAND), 2004. Neutrino 2004, 13-19 June 2004, Paris, France. http://neutrino2004.in2p3.fr/slides/monday/gratta.pdf.
[Gratta-Nu2004]
[5-117]
KamLAND: updated results, K. Inoue, 2004. Neutrino Oscillation Workshop NOW 2004, September 11-17, 2004, Conca Specchiulla (Otranto, Italy). http://www.ba.infn.it/~now2004/talks/12_09_04/plen/KamLAND.pdf.
[Inoue:2004]
[5-118]
K2K results, T. Iwashita (K2K), 2004. XXXIX Rencontres de Moriond, Electroweak Interactions and Unified Theories, La Thuile, 21-28 March 2003. http://moriond.in2p3.fr/EW/2004/transparencies/3_Wednesday/3_2_afternoon/3_2_4_Iwashita/Iwashita.pdf.
[Iwashita:Moriond2004]
[5-119]
K2K results, T. Nakaya (K2K), 2004. Neutrino 2004, 13-19 June 2004, Paris, France. http://neutrino2004.in2p3.fr/slides/tuesday/nakaya.pdf.
Comment: See Recent Results From K2K.
[Nakaya-Nu2004]
[5-120]
The Results of Oscillation Analysis in K2K Experiment And An Overview of JHFnu Experiment, I. Kato (K2K), arXiv:hep-ex/0306043, 2003. XXXVIIIth Recontres de Moriond on Electroweak Interaction and Unified Theories, Les Arcs, France, March 15-22, 2003.
[Kato:2003qx]
[5-121]
Status of the Super-Kamiokande, the K2K-2 experiment and JHF nu project, Y. Hayato, 2003. EPS2003. http://eps2003.physik.rwth-aachen.de/data/talks/parallel/07Neutrino/07Hayato.ppt.
[Hayato:EPS2003]
[5-122]
KamLAND Results, K. Inoue, 2003. The 4th Workshop on Neutrino Oscillations and their Origin (NOON2003), February 10-14, 2003, Ishikawa Kousei Nenkin Kaikan, Kanazawa, Japan. http://www-sk.icrr.u-tokyo.ac.jp/noon2003/transparencies/10/Inoue-KamLAND.pdf.
[Inoue:NOON2003]
[5-123]
New Results from Super-K and K2K, R. Jeffrey Wilkes (K2K), eConf C020805 (2002) TTH02, arXiv:hep-ex/0212035. Secrets of the B-Meson, Topical Conference, XXX SLAC Summer Institute, SLAC, August, 2002.
[Wilkes:2002mb]
[5-124]
Recent Results from the K2K Experiment, C. W. Walter (K2K), eConf C0209101 (2002) TH03, arXiv:hep-ex/0211059. Seventh International Workshop on Tau Lepton Physics (TAU02), Santa Cruz, Ca, USA, Sept 2002.
[Walter:2002wh]
[5-125]
Present Status of the K2K Experiment, Yuichi Oyama (K2K), arXiv:hep-ex/0210030, 2002. 3rd Conference on Physics beyond the Standard Model - BEYOND THE DESERT 02 - Oulu, Finland, 2-7 June 2002. http://cupp.oulu.fi/trans/Oyama.pdf.
[Oyama:2002hu]
[5-126]
New Results from K2K, Takanobu Ishii (K2K), Frascati Phys.Ser. 27 (2002) 85-94, arXiv:hep-ex/0206033. Les Rencontres de Physique de la Vallee d'Aoste, La Thuile, Aosta Valley, Italy, March 3-9, 2002. http://www.pi.infn.it/lathuile/2002/talks/ishii.pdf.
[Ishii:2002ez]
[5-127]
An update on progress at KamLAND, S. A. Dazeley (KamLAND), arXiv:hep-ex/0205041, 2002.
[Dazeley:2002yf]
[5-128]
First Results from KamLAND: Evidence for $\bar{\nu}_e$ disappearance, G. Gratta (Kamland), 2002. SLAC Colloquium, December 2002. http://hep.stanford.edu/neutrino/KamLAND/TalksAndPublications/KamLAND_FirstResults_SLAC_Colloq.pdf.
[Gratta:SLAC2002]
[5-129]
K2K Results, K. Nishikawa (K2K), 2002. XXth International Conference on Neutrino Physics and Astrophysics May 25 - 30, 2002, Munich, Germany. http://neutrino2002.ph.tum.de/pages/transparencies/nishikawa.
[Nishikawa-Nu2002]
[5-130]
KamLAND: Examination of the LMA solution with reactor neutrinos, A. Suzuki (Kamland), 2002. XVI International Conference on Particles and Nuclei, Osaka, Japan, September 30 - October 4, 2002. http://www.rcnp.osaka-u.ac.jp/Divisions/np2/PaNic02/Suzuki.pdf.
[Suzuki-Panic02]

6 - Experiment - Neutrino Flux

[6-1]
Measurements of $\pi^+$, $\pi^-$, $p$, $\bar{p}$, $K^+$ and $K^-$ production in 120 GeV/$c$ p + C interactions, H. Adhikary et al., Phys.Rev.D 108 (2023) 072013, arXiv:2306.02961.
[NA61SHINE:2023bqo]
[6-2]
Measurement of the production cross section of 31 GeV/$c$ protons on carbon via beam attenuation in a 90-cm-long target, A. Acharya et al. (NA61/SHINE), Phys.Rev. D103 (2021) 012006, arXiv:2010.11819.
[NA61SHINE:2020iqu]
[6-3]
Measurements of hadron production in $\pi^{+}$ + C and $\pi^{+}$ + Be interactions at 60 GeV/$c$, A. Aduszkiewicz et al., Phys.Rev. D100 (2019) 112004, arXiv:1909.06294.
[NA61SHINE:2019nzr]
[6-4]
Measurements of production and inelastic cross sections for $\mbox{p}+\mbox{C}$, $\mbox{p}+\mbox{Be}$, and $\mbox{p}+\mbox{Al}$ at 60 GeV/$c$ and $\mbox{p}+\mbox{C}$ and $\mbox{p}+\mbox{Be}$ at 120 GeV/$c$, A. Aduszkiewicz et al., Phys.Rev. D100 (2019) 112001, arXiv:1909.03351.
[NA61SHINE:2019aip]
[6-5]
Measurements of $\pi^{\pm}$, $K^{\pm}$ and proton yields from the surface of the T2K replica target for incoming 31 GeV/c protons with the NA61/SHINE spectrometer at the CERN SPS, N. Abgrall et al., Eur.Phys.J. C79 (2019) 100, arXiv:1808.04927.
[NA61SHINE:2018rhe]
[6-6]
Measurements of $\pi^\pm$, $K^\pm$, $K^0_S$, $\Lambda$ and proton production in proton-carbon interactions at 31 GeV/$c$ with the NA61/SHINE spectrometer at the CERN SPS, N. Abgrall et al. (NA61/SHINE), Eur. Phys. J. C76 (2016) 84, arXiv:1510.02703.
[NA61SHINE:2015bad]
[6-7]
Measurements of Production Properties of K0S mesons and Lambda hyperons in Proton-Carbon Interactions at 31 GeV/c, N. Abgrall et al. (NA61/SHINE), Phys. Rev. C89 (2014) 025205, arXiv:1309.1997.
[NA61SHINE:2013utd]
[6-8]
Results of charged pions cross-section in proton carbon interaction at 31 GeV/c measured with the NA61/SHINE detector, Sebastien Murphy (NA61/SHINE), arXiv:1105.6241, 2011.
[Murphy:2011bt]
[6-9]
Measurement of the neutrino component of an anti-neutrino beam observed by a non-magnetized detector, A.A. Aguilar-Arevalo et al. (MiniBooNE), Phys. Rev. D84 (2011) 072005, arXiv:1102.1964.
[MiniBooNE:2011hgz]
[6-10]
Measurements of Cross Sections and Charged Pion Spectra in Proton-Carbon Interactions at 31 GeV/c, N. Abgrall et al. (NA61/SHINE), Phys. Rev. C84 (2011) 034604, arXiv:1102.0983.
[NA61SHINE:2011dsu]
[6-11]
HARP-CDP hadroproduction data: Comparison with FLUKA and GEANT4 simulations, A. Bolshakova et al. (HARP-CDP), Eur. Phys. J. C70 (2010) 543-553, arXiv:1006.3429.
[HARP-CDP:2010aip]
[6-12]
Measurements of forward proton production with incident protons and charged pions on nuclear targets at the CERN Proton Synchroton, M. Apollonio et al. (HARP), Phys. Rev. C82 (2010) 045208, arXiv:1006.1223.
[HARP:2010tgv]
[6-13]
Forward production of charged pions with incident protons on nuclear targets at the CERN PS, M. Apollonio et al. (HARP), Phys. Rev. C80 (2009) 035208, arXiv:0907.3857.
[HARP:2009drm]
[6-14]
Large-angle production of charged pions with incident pion beams on nuclear targets, M. Apollonio et al. (HARP), Phys. Rev. C80 (2009) 065207, arXiv:0907.1428.
[HARP:2009lkz]
[6-15]
Measurement of the production cross-sections of $\pi^\pm$ in p-C and $\pi^\pm$-C interactions at 12 GeV/c, M.G. Catanesi et al. (HARP), Astropart.Phys. 29 (2008) 257-281, arXiv:0802.0657.
[Collaboration:2008rf]
[6-16]
Measurement of the production of charged pions by protons on a tantalum target, HARP Collaboration (HARP), Eur. Phys. J. C51 (2007) 787-824, arXiv:0706.1600.
[HARP:2007qjt]
[6-17]
Measurement of the production cross-section of positive pions in the collision of 8.9 GeV/c protons on beryllium, HARP (HARP), Eur. Phys. J. C52 (2007) 29-53, arXiv:hep-ex/0702024.
[HARP:2007dqt]
[6-18]
Measurement of the production cross-section of positive pions in p-Al collisions at 12.9 GeV/c, HARP (HARP), Nucl. Phys. B732 (2006) 1, arXiv:hep-ex/0510039.
[HARP:2005clh]

7 - Experiment - Neutrino Flux - Talks

[7-1]
Precise Determination of Neutrino Flux with Hadron Production Measurements, Yoshikazu Nagai, arXiv:1911.01972, 2019. 15th Rencontres du Vietnam '3 Neutrinos and beyond' (August 4-10, 2019).
[Nagai:2019kdj]
[7-2]
Recent results from NA61/SHINE, Marek Gazdzicki (NA61/SHINE), EPJ Web Conf. 95 (2015) 01005, arXiv:1412.4243. ICNFP 2014 Crete, Greece.
[Gazdzicki:2014bxa]
[7-3]
Results from NA61/SHINE, M. Unger (NA61/SHINE), EPJ Web Conf. 52 (2013) 01009, arXiv:1305.5281. International Symposium on Very High Energy Cosmic Ray Interactions (ISVHECRI 2012), Berlin, Germany.
[Unger:2013ken]
[7-4]
Hadron production experiments, Boris A. Popov, Nucl. Phys. Proc. Suppl. 235-236 (2013) 135-142, arXiv:1212.1030. XXV International Conference on Neutrino Physics and Astrophysics, June 2012, Kyoto (Japan).
[Popov:2012aq]
[7-5]
The NA61/SHINE long target pilot analysis for T2K, Nicolas Abgrall (NA61/SHINE), J. Phys. Conf. Ser. 408 (2013) 012050, arXiv:1110.1966.
[Abgrall:2011ge]
[7-6]
Cross Sections and Charged Pion Spectra in Proton-Carbon Interactions at 31 GeV/c, L. S. Esposito (NA61), arXiv:1105.5240, 2011. WIN'11, Cape Town, South Africa, 31 January - 5 February 2011.
[Esposito:2011at]
[7-7]
Hadro-production measurements for T2K by NA61/SHINE at the CERN SPS, Claudia Strabel (NA61/SHINE), arXiv:1006.0767, 2010. Lake Louise Winter Institute 2010.
[Strabel:2010qp]
[7-8]
NA61-SHINE: Hadron Production Measurements for Cosmic Ray and Neutrino Experiments, Nicolas Abgrall (NA61/SHINE), arXiv:1005.3692, 2010.
[Abgrall:2010fm]
[7-9]
Preliminary results of charged pions cross-section in proton carbon interaction at 30 GeV measured with the NA61/SHINE detector, Sebastien Murphy (NA61/SHINE), arXiv:1005.3689, 2010.
[Murphy:2010fk]
[7-10]
Pion Production Measurement in NA61/SHINE Experiment for High Precision Neutrino Oscillation Experiments, Tomasz Jan Palczewski (NA61/SHINE), PoS EPS-HEP2009 (2009) 412, arXiv:0911.2800. 2009 Europhysics Conference on High Energy Physics, 16-22 July 2009 Krakow, Poland.
[Palczewski:2009pq]
[7-11]
The NA61/SHINE Experiment at the CERN SPS, Andras Laszlo, for the NA61/SHINE Collaboration (NA61/SHINE), Nucl. Phys. A830 (2009) 559c-562c, arXiv:0907.4493. Quark Matter 2009, March 30 - April 4, Knoxville, Tennessee.
[Laszlo:2009vg]
[7-12]
Results from HARP and their implications for neutrino physics, Boris A. Popov (HARP), arXiv:0705.3512, 2007. XLIInd Rencontres de Moriond on Electroweak Interactions and Unified Theories.
[Popov:2007hm]
[7-13]
Initial results from the HARP experiment at CERN, J.J. Gomez-Cadenas, Nucl. Phys. Proc. Suppl. 143 (2005) 291, arXiv:hep-ex/0410043. Neutrino 2004.
[Gomez-Cadenas:2004ixw]
[7-14]
First physics results from the HARP experiment at CERN, A. Cervera Villanueva, arXiv:hep-ex/0406053, 2004. Rencontres de Moriond 2004.
[CerveraVillanueva:2004ws]

8 - Phenomenology

[8-1]
Study of Long Range Force in P2SO and T2HKK, Priya Mishra, Rudra Majhi, Sambit Kumar Pusty, Monojit Ghosh, Rukmani Mohanta, arXiv:2402.19178, 2024.
[Mishra:2024riq]
[8-2]
Quantum Decoherence effects on precision measurements at DUNE and T2HK, G. Barenboim, A. Calatayud-Cadenillas, A. M. Gago, C. A. Ternes, arXiv:2402.16395, 2024.
[Barenboim:2024wdn]
[8-3]
Synergy between DUNE and T2HKK to probe Invisible Neutrino Decay, Zannatun Firdowzy Dey, Debajyoti Dutta, arXiv:2402.13235, 2024.
[Dey:2024nzm]
[8-4]
Invisible neutrino decay at long-baseline neutrino oscillation experiments, Christoph A. Ternes, Giulia Pagliaroli, arXiv:2401.14316, 2024.
[Ternes:2024qui]
[8-5]
A non-unitary solar constraint for long-baseline neutrino experiments, Andres Lopez Moreno, arXiv:2401.12829, 2024.
[Moreno:2024pbw]
[8-6]
The Smallness of Matter Effects in Long-Baseline Muon Neutrino Disappearance, Peter B. Denton, Stephen J. Parke, Phys.Rev.D 109 (2024) 053002, arXiv:2401.10326.
[Denton:2024thm]
[8-7]
Violation of LGtI inequalities in the light of NO$\nu$A and T2K anomaly, Lekhashri Konwar, Juhi Vardani, Bhavna Yadav, arXiv:2401.02886, 2024.
[Konwar:2024nwc]
[8-8]
Non-standard neutrino interactions mediated by a light scalar at DUNE, Bhaskar Dutta, Sumit Ghosh, Kevin J. Kelly, Tianjun Li, Adrian Thompson, Ankur Verma, arXiv:2401.02107, 2024.
[Dutta:2024hqq]
[8-9]
Evaluation of the Leggett-Garg inequality by means of the neutrino oscillations observed in reactor and accelerator experiments, Ricardo Zamora Barrios, Mario A. Acero, arXiv:2401.00240, 2024.
[Barrios:2023yub]
[8-10]
Ultralight dark matter in neutrino oscillations to accommodate T2K and NO$\nu$A tension, Hai-Xing Lin, Jian Tang, Sampsa Vihonen, arXiv:2312.11704, 2023.
[Lin:2023xyk]
[8-11]
Alleviating the present tension between T2K and NOvA with neutrino New Physics at source, Adriano Cherchiglia, Pedro Pasquini, O. L. G. Peres, F. F. Rodrigues, R. R. Rossi, E. S. Souza, arXiv:2310.18401, 2023.
[Cherchiglia:2023ojf]
[8-12]
DUNE potential as a New Physics probe, Adriano Cherchiglia, Jose Santiago, JHEP 03 (2024) 018, arXiv:2309.15924.
[Cherchiglia:2023aqp]
[8-13]
Impact of scalar NSI on the neutrino mass hierarchy sensitivity at DUNE, T2HK and T2HKK, Arnab Sarker, Abinash Medhi, Dharitree Bezboruah, Moon Moon Devi, Debajyoti Dutta, arXiv:2309.12249, 2023.
[Sarker:2023qzp]
[8-14]
Discovering Long-lived Particles at DUNE, Pilar Coloma, Justo Martin-Albo, Salvador Urrea, Phys.Rev.D 109 (2024) 035013, arXiv:2309.06492.
[Coloma:2023oxx]
[8-15]
Sensitivity of octant of $\theta_{23}$, CP violation and mass hierarchy in NO$\nu$A with multinucleon and detector effects, Paramita Deka, Kalpana Bora, arXiv:2308.03702, 2023.
[Deka:2023vsd]
[8-16]
Parametrized uncertainties in the spectral function model of neutrino charged-current quasielastic interactions for oscillation analyses, J. Chakrani et al., arXiv:2308.01838, 2023.
[Chakrani:2023htw]
[8-17]
Probing mass orderings in presence of a very light sterile neutrino in a liquid argon detector, Animesh Chatterjee, Srubabati Goswami, Supriya Pan, Nucl.Phys.B 996 (2023) 116370, arXiv:2307.12885.
[Chatterjee:2023qyr]
[8-18]
Probing Dual NSI and CP Violation in DUNE and T2HK, Barnali Brahma, Anjan Giri, arXiv:2306.05258, 2023.
[Brahma:2023pxj]
[8-19]
CP and T violation effects in presence of an $\mbox{eV}$ scale sterile neutrino at long baseline neutrino experiments, Sabila Parveen, Kiran Sharma, Sudhanwa Patra, Poonam Mehta, arXiv:2305.16824, 2023.
[Parveen:2023ixk]
[8-20]
Capability of the proposed long-baseline experiments to probe large extra dimension, Samiran Roy, Phys.Rev.D 108 (2023) 055015, arXiv:2305.16234.
[Roy:2023dyq]
[8-21]
Flavor-dependent long-range neutrino interactions in DUNE & T2HK: alone they constrain, together they discover, Masoom Singh, Mauricio Bustamante, Sanjib Kumar Agarwalla, JHEP 08 (2023) 101, arXiv:2305.05184.
[Singh:2023nek]
[8-22]
Future leptonic CP phase determination in the presence of NSI, Luis A. Delgadillo, O. G. Miranda, Phys.Rev.D 108 (2023) 095024, arXiv:2304.05545.
[Delgadillo:2023lyp]
[8-23]
Comprehensive study of LIV in atmospheric and long-baseline experiments, Deepak Raikwal, Sandhya Choubey, Monojit Ghosh, Phys.Rev.D 107 (2023) 115032, arXiv:2303.10892.
[Raikwal:2023lzk]
[8-24]
Constraining Lorentz Invariance Violation with Next-Generation Long-Baseline Experiments, Sanjib Kumar Agarwalla, Sudipta Das, Sadashiv Sahoo, Pragyanprasu Swain, JHEP 07 (2023) 216, arXiv:2302.12005.
[Agarwalla:2023wft]
[8-25]
Investigating the effects of Lorentz Invariance Violation on the CP-sensitivities of the Deep Underground Neutrino Experiment, Arnab Sarker, Abinash Medhi, Moon Moon Devi, Eur.Phys.J.C 83 (2023) 592, arXiv:2302.10456.
[Sarker:2023mlz]
[8-26]
Discernible NSI Effects in Long-Baseline Neutrino Experiments, Barnali Brahma, Anjan Giri, arXiv:2302.09592, 2023.
[Brahma:2023wlf]
[8-27]
Here Comes the Sun: Solar Parameters in Long-Baseline Accelerator Neutrino Oscillations, Peter B. Denton, Julia Gehrlein, JHEP 06 (2023) 090, arXiv:2302.08513.
[Denton:2023zwa]
[8-28]
Improved sensitivities of ESS$\nu$SB from a two-detector fit, F. Capozzi, C. Giunti, C. A. Ternes, JHEP 04 (2023) 130, arXiv:2302.07154.
[Capozzi:2023ltl]
[8-29]
Time Dependent CP-even and CP-odd Signatures of Scalar Ultra-light Dark Matter in Neutrino Oscillations, Marta Losada, Yosef Nir, Gilad Perez, Inbar Savoray, Yogev Shpilman, arXiv:2302.00005, 2023.
[Losada:2023zap]
[8-30]
Muon Beam for Neutrino CP Violation: connecting energy and neutrino frontiers, Alim Ruzi, Tianyi Yang, Dawei Fu, Sitian Qian, Leyun Gao, Qiang Li, arXiv:2301.02493, 2023.
[Ruzi:2023atl]
[8-31]
Adding Stroboscopic Muon Information For Reduction of Systematic Uncertainties in DUNE, Henry J. Frisch, arXiv:2212.09524, 2022.
[Frisch:2022vwc]
[8-32]
Matter effect in presence of a sterile neutrino and resolving the octant degeneracy using liquid argon detector in DUNE, Animesh Chatterjee, Srubabati Goswami, Supriya Pan, Phys.Rev.D 108 (2023), arXiv:2212.02949.
[Chatterjee:2022pqg]
[8-33]
Enhancing Sensitivity to Leptonic CP Violation using Complementarity among DUNE, T2HK, and T2HKK, Sanjib Kumar Agarwalla, Sudipta Das, Alessio Giarnetti, Davide Meloni, Masoom Singh, Eur.Phys.J.C 83 (2023) 694, arXiv:2211.10620.
[Agarwalla:2022xdo]
[8-34]
Studying neutrino oscillations at DUNE through dynamical Lorentz symmetry breaking in four-Majorana fermion model, Susie Kim, arXiv:2211.06192, 2022.
[Kim:2022gzf]
[8-35]
Dipole portal and neutrinophilic scalars at DUNE revisited: the importance of the high-energy neutrino tail, Maksym Ovchynnikov, Thomas Schwetz, Jing-Yu Zhu, Phys.Rev.D 107 (2023) 055029, arXiv:2210.13141.
[Ovchynnikov:2022rqj]
[8-36]
How to Identify Different New Neutrino Oscillation Physics Scenarios at DUNE, Peter B. Denton, Alessio Giarnetti, Davide Meloni, JHEP 02 (2023) 210, arXiv:2210.00109.
[Denton:2022pxt]
[8-37]
Study of Spherical Array Target for Long-Baseline Neutrino Experiment, Quynh M. Nguyen, Alberto Marchionni, arXiv:2209.06100, 2022.
[Nguyen:2022ixp]
[8-38]
Imprints of scalar NSI on the CP-violation sensitivity using synergy among DUNE, T2HK and T2HKK, Abinash Medhi, Moon Moon Devi, Debajyoti Dutta, JHEP 01 (2023) 079, arXiv:2209.05287.
[Medhi:2022qmu]
[8-39]
Zoom in muon survival probability with sterile neutrino for CP and T-violation, Kiran Sharma, Sudhanwa Patra, arXiv:2208.09696, 2022.
[Sharma:2022zaf]
[8-40]
Uncertainties in neutrino oscillation parameter sensitivity due to resonance processes at NO$\nu$A, Paramita Deka, Nilavjyoti Hazarika, Kalpana Bora, Int.J.Mod.Phys.A 37 (2022) 2250200, arXiv:2208.07047.
[Deka:2022idq]
[8-41]
Neutrino Decoherence and the Mass Hierarchy in the JUNO Experiment, Eric Marzec, Joshua Spitz, Phys.Rev.D 106 (2022) 053007, arXiv:2208.04277.
[Marzec:2022mcz]
[8-42]
Impact of Nuclear effects in Energy Reconstruction Methods on Sensitivity of Neutrino Oscillation Parameters at NO$\nu$A experiment, Paramita Deka, Jaydip Singh, Kalpana Bora, Nucl.Phys.B 987 (2023) 116086, arXiv:2208.03681.
[Deka:2022lvy]
[8-43]
Five texture zeros in the lepton sector and neutrino oscillations at DUNE, Richard H. Benavides, D. V. Forero, Luis Munoz, Jose M. Munoz, Alejandro Rico, A. Tapia, Phys.Rev.D 107 (2023) 036008, arXiv:2207.04072.
[Benavides:2022hca]
[8-44]
Towards a Sub-percent Precision Measurement of $\sin^2\theta_{13}$ with Reactor Antineutrinos, Jinnan Zhang, Jun Cao, JHEP 03 (2023) 072, arXiv:2206.15317.
[Zhang:2022zoc]
[8-45]
Investigating Lorentz Violation with the long baseline experiment P2O, Nishat Fiza, Nafis Rezwan Khan Chowdhury, Mehedi Masud, JHEP 01 (2023) 076, arXiv:2206.14018.
[Fiza:2022xfw]
[8-46]
On the optimal detector volume of T2HKK, Papia Panda, Monojit Ghosh, Priya Mishra, Rukmani Mohanta, Phys.Rev.D 106 (2022) 073006, arXiv:2206.10320.
[Panda:2022vdw]
[8-47]
Vector leptoquark $U_3$ and CP violation at T2K, NOvA experiments, Rudra Majhi, Dinesh Kumar Singha, K. N. Deepthi, Rukmani Mohanta, Eur.Phys.J.C 82 (2022) 919, arXiv:2205.04269.
[Majhi:2022wyp]
[8-48]
Very Light Sterile Neutrinos at NOvA and T2K, Andre de Gouvea, Giancarlo Jusino Sanchez, Kevin J. Kelly, Phys.Rev.D 106 (2022) 055025, arXiv:2204.09130.
[deGouvea:2022kma]
[8-49]
Cross-sectional uncertainties influences on sensitivity studies of DUNE and T2HK experiments, Ritu Devi, Jaydip Singh, Baba Potukuchi, Int.J.Theor.Phys. 61 (2022) 243, arXiv:2201.08040.
[Devi:2022zfh]
[8-50]
On the tension between the latest NOvA and T2K data, Ushak Rahaman, Sushant Raut, Eur.Phys.J.C 82 (2022) 910, arXiv:2112.13186.
[Rahaman:2021zzm]
[8-51]
Optimal configuration of Protvino to ORCA experiment for hierarchy and non-standard interactions, Dinesh Kumar Singha, Monojit Ghosh, Rudra Majhi, Rukmani Mohanta, JHEP 05 (2022) 117, arXiv:2112.04876.
[Singha:2021jkn]
[8-52]
Non-minimal Lorentz invariance violation in light of muon anomalous magnetic moment and long-baseline neutrino oscillation data, Hai-Xing Lin, Pedro Pasquini, Jian Tang, Sampsa Vihonen, Phys.Rev.D 105 (2022) 096029, arXiv:2111.14336.
[Lin:2021cst]
[8-53]
Exploring the effects of Scalar Non Standard Interactions on the CP violation sensitivity at DUNE, Abinash Medhi, Debajyoti Dutta, Moon Moon Devi, JHEP 06 (2022) 129, arXiv:2111.12943.
[Medhi:2021wxj]
[8-54]
A close look on 2-3 mixing angle with DUNE in light of current neutrino oscillation data, Sanjib Kumar Agarwalla, Ritam Kundu, Suprabh Prakash, Masoom Singh, JHEP 03 (2022) 206, arXiv:2111.11748.
[Agarwalla:2021bzs]
[8-55]
Model-Independent Constraints on Non-Unitary Neutrino Mixing from High-Precision Long-Baseline Experiments, Sanjib Kumar Agarwalla, Sudipta Das, Alessio Giarnetti, Davide Meloni, JHEP 07 (2022) 121, arXiv:2111.00329.
[Agarwalla:2021owd]
[8-56]
Updated sensitivity of DUNE in 3+1 scenario with far and near detectors, Monojit Ghosh, Rukmani Mohanta, Eur.Phys.J.ST 231 (2022) 137-140, arXiv:2110.05767.
[Ghosh:2021rtn]
[8-57]
Effect of non-unitary mixing on the mass hierarchy and CP violation determination at the Protvino to Orca experiment, Daljeet Kaur, Nafis Rezwan Khan Chowdhury, Ushak Rahaman, Eur.Phys.J.C 84 (2024) 118, arXiv:2110.02917.
[Kaur:2021rau]
[8-58]
The unfinished fabric of the three neutrino paradigm, Francesco Capozzi, Eleonora Di Valentino, Eligio Lisi, Antonio Marrone, Alessandro Melchiorri, Antonio Palazzo, Phys.Rev.D 104 (2021) 083031, arXiv:2107.00532.
[Capozzi:2021fjo]
[8-59]
Uncertainties in the oscillation parameters measurement due to multi-nucleon effects at NO$\nu$A Experiment, Paramita Deka, Jaydip Singh, Neelakshi Sarma, Kalpana Bora, Nucl.Phys.B 115903 () 2022, arXiv:2106.16069.
[Deka:2021qnw]
[8-60]
Testing non-standard neutrino interactions in (anti)-electron neutrino disappearance experiments, Mariano Chaves, Orlando Peres, Pedro de Holanda, JHEP 03 (2023) 180, arXiv:2106.15725.
[Chaves:2021kxe]
[8-61]
Resonance refraction and neutrino oscillations, Alexei Y. Smirnov, Victor B. Valera, JHEP 09 (2021) 177, arXiv:2106.13829.
[Smirnov:2021zgn]
[8-62]
New sources of leptonic CP violation at the DUNE neutrino experiment, A. Giarnetti, D. Meloni, arXiv:2106.00030, 2021.
[Giarnetti:2021aqe]
[8-63]
Probing non-unitary neutrino mixing via long-baseline neutrino oscillation experiments based at J-PARC, C Soumya, Phys.Rev.D 105 (2022) 015012, arXiv:2104.04315.
[Soumya:2021dmy]
[8-64]
Looking for Lorentz invariance violation (LIV) in the latest long baseline accelerator neutrino oscillation data, Ushak Rahaman, Eur.Phys.J.C 81 (2021) 792, arXiv:2103.04576.
[Rahaman:2021leu]
[8-65]
Non-unitary neutrino mixing in short and long-baseline experiments, D.V. Forero, C. Giunti, C.A. Ternes, M. Tortola, Phys.Rev.D 104 (2021) 075030, arXiv:2103.01998.
[Forero:2021azc]
[8-66]
Exploring the new physics phases in 3+1 scenario in neutrino oscillation experiments, Nishat Fiza, Mehedi Masud, Manimala Mitra, JHEP 09 (2021), arXiv:2102.05063.
[Fiza:2021gvq]
[8-67]
Physics prospects of second oscillation maximum at the Deep Underground Neutrino Experiment, Jogesh Rout, Sheeba Shafaq, Mary Bishai, Poonam Mehta, Phys.Rev. D103 (2021) 116003, arXiv:2012.08269.
[Rout:2020emr]
[8-68]
Deep-Learning-Based Kinematic Reconstruction for DUNE, Junze Liu, Jordan Ott, Julian Collado, Benjamin Jargowsky, Wenjie Wu, Jianming Bian, Pierre Baldi, arXiv:2012.06181, 2020.
[Liu:2020pzv]
[8-69]
Invisible neutrino decay : First vs second oscillation maximum, Kaustav Chakraborty, Debajyoti Dutta, Srubabati Goswami, Dipyaman Pramanik, JHEP 2105 (2021) 091, arXiv:2012.04958.
[Chakraborty:2020cfu]
[8-70]
Physics potentials with a combined sensitivity of T2K-II, NO$\nu$A extension and JUNO, S. Cao, A. Nath, T. V. Ngoc, P. T. Quyen, N. T. Hong Van, Ng. K. Francis, arXiv:2009.08585, 2020.
[Cao:2020aig]
[8-71]
Impact of high energy beam tunes on the sensitivities to the standard unknowns at DUNE, Jogesh Rout, Samiran Roy, Mehedi Masud, Mary Bishai, Poonam Mehta, Phys.Rev. D102 (2020) 116018, arXiv:2009.05061.
[Rout:2020cxi]
[8-72]
Non-standard neutrino interactions as a solution to the NO$\nu$A and T2K discrepancy, Sabya Sachi Chatterjee, Antonio Palazzo, Phys.Rev.Lett. 126 (2021) 051802, arXiv:2008.04161.
[Chatterjee:2020kkm]
[8-73]
CP-Violating Neutrino Non-Standard Interactions in Long-Baseline-Accelerator Data, Peter B. Denton, Julia Gehrlein, Rebekah Pestes, Phys.Rev.Lett. 126 (2021) 051801, arXiv:2008.01110.
[Denton:2020uda]
[8-74]
The fate of hints: updated global analysis of three-flavor neutrino oscillations, Ivan Esteban, M.C. Gonzalez-Garcia, Michele Maltoni, Thomas Schwetz, Albert Zhou, JHEP 09 (2020) 178, arXiv:2007.14792.
[Esteban:2020cvm]
[8-75]
Signatures of Ultralight Dark Matter in Neutrino Oscillation Experiments, Abhish Dev, Pedro A.N. Machado, Pablo Martinez-Mirave, JHEP 2101 (2021) 094, arXiv:2007.03590.
[Dev:2020kgz]
[8-76]
Tau neutrinos at DUNE: new strategies, new opportunities, Pedro Machado, Holger Schulz, Jessica Turner, Phys.Rev. D102 (2020) 053010, arXiv:2007.00015.
[Machado:2020yxl]
[8-77]
2020 Global reassessment of the neutrino oscillation picture, P. F. de Salas, D. V. Forero, S. Gariazzo, P. Martinez-Mirave, O. Mena, C. A. Ternes, M. Tortola, J. W. F. Valle, JHEP 2021 (2020) 071, arXiv:2006.11237.
[deSalas:2020pgw]
[8-78]
The Impact of Different Parameterizations on the Interpretation of CP Violation in Neutrino Oscillations, Peter B. Denton, Rebekah Pestes, JHEP 2105 (2021) 139, arXiv:2006.09384.
[Denton:2020igp]
[8-79]
Interpreting NO$\nu$A and T2K data in the presence of a light sterile neutrino, Sabya Sachi Chatterjee, Antonio Palazzo, arXiv:2005.10338, 2020.
[Chatterjee:2020yak]
[8-80]
CPT and CP, an entangled couple, Gabriela Barenboim, Christoph A. Ternes, Mariam Tortola, JHEP 2007 (2020) 155, arXiv:2005.05975.
[Tortola:2020ncu]
[8-81]
Model-independent test for CPT violation using long-baseline and atmospheric neutrino experiments, Daljeet Kaur, Phys.Rev. D101 (2020) 5, arXiv:2004.00349.
[Kaur:2020ggv]
[8-82]
Effects of the Violation of the Equivalence Principle at DUNE, F. N. Diaz, J. Hoefken, A. M. Gago, Phys.Rev. D102 (2020) 055020, arXiv:2003.13712.
[Diaz:2020aax]
[8-83]
Neutrino Invisible Decay at DUNE: a multi-channel analysis, A. Ghoshal, A. Giarnetti, D. Meloni, J.Phys. G48 (2021) 055004, arXiv:2003.09012.
[Ghoshal:2020hyo]
[8-84]
Addendum to: Global constraints on absolute neutrino masses and their ordering, Francesco Capozzi, Eleonora Di Valentino, Eligio Lisi, Antonio Marrone, Alessandro Melchiorri, Antonio Palazzo, Phys.Rev. D101 (2020) 116013, arXiv:2003.08511.
[Capozzi:2017ipn]
[8-85]
Likelihood-free inference of experimental Neutrino Oscillations using Neural Spline Flows, Sebastian Pina-Otey, Federico Sanchez, Vicens Gaitan, Phys.Rev. D101 (2020) 113001, arXiv:2002.09436.
[Pina-Otey:2020tdz]
[8-86]
Quantum decoherence and relaxation in neutrinos using long-baseline data, A. L. G. Gomes, R. A. Gomes, O. L. G. Peres, JHEP 10 (2023) 035, arXiv:2001.09250.
[Gomes:2020muc]
[8-87]
Matter vs. vacuum oscillations at long baseline accelerator neutrino experiments, Suman Bharti, Ushak Rahaman, S. Uma Sankar, Mod.Phys.Lett. A36 (2021) 2150098, arXiv:2001.08676.
[Bharti:2020gnu]
[8-88]
Effects of matter density profiles on neutrino oscillations for T2HK and T2HKK, Stephen F. King, Susana Molina Sedgwick, Stephen J. Parke, Nick W. Prouse, Phys.Rev. D101 (2020) 076019, arXiv:2001.05505.
[King:2020ydu]
[8-89]
Can Lorentz Invariance Violation affect the Sensitivity of Deep Underground Neutrino Experiment?, Sanjib Kumar Agarwalla, Mehedi Masud, Eur.Phys.J.C 80 (2020) 716, arXiv:1912.13306.
[KumarAgarwalla:2019gdj]
[8-90]
Sensitivity to light sterile neutrinos at ESSnuSB, Monojit Ghosh, Tommy Ohlsson, Salvador Rosauro-Alcaraz, JHEP 2003 (2020) 026, arXiv:1912.10010.
[Ghosh:2019zvl]
[8-91]
Unified model of nucleon elastic form factors and implications for neutrino-oscillation experiments, Xilin Zhang, T. J. Hobbs, Gerald A. Miller, Phys.Rev. D102 (2020) 074026, arXiv:1912.07797.
[Zhang:2019iyx]
[8-92]
Interference between the Atmospheric and Solar Oscillation Amplitudes, Patrick Huber, Hisakazu Minakata, Rebekah Pestes, Phys.Rev. D101 (2020) 093002, arXiv:1912.02426.
[Huber:2019frh]
[8-93]
Prospects of light sterile neutrino searches in long-baseline experiments, Yakefu Reyimuaji, Chun Liu, JHEP 06 (2020) 094, arXiv:1911.12524.
[Reyimuaji:2019wbn]
[8-94]
Effect of light sterile neutrino on currently running long-baseline experiments, Rudra Majhi, Soumya C, Rukmani Mohanta, J.Phys. G47 (2020) 095002, arXiv:1911.10952.
[Majhi:2019hdj]
[8-95]
Searching for non-unitary neutrino oscillations in the present T2K and NO$\nu$A data, Luis Salvador Miranda, Pedro Pasquini, Ushak Rahaman, Soebur Razzaque, Eur.Phys.J. C81 (2021) 444, arXiv:1911.09398.
[Miranda:2019ynh]
[8-96]
Prospects of Measuring Oscillated Decay-at-Rest Neutrinos at Long Baselines, Roni Harnik, Kevin J. Kelly, Pedro A.N. Machado, Phys.Rev. D101 (2020) 033008, arXiv:1911.05088.
[Harnik:2019iwv]
[8-97]
Physics potential of ESS$\nu$SB in the presence of a Light Sterile Neutrino, Sanjib Kumar Agarwalla, Sabya Sachi Chatterjee, Antonio Palazzo, JHEP 12 (2019) 174, arXiv:1909.13746.
[KumarAgarwalla:2019blx]
[8-98]
Neutrino oscillation analysis of 217 live-days of Daya Bay and 500 live-days of RENO, Mario A. Acero, Alexis A. Aguilar-Arevalo, Dairo J. Polo-Toledo, Adv.High Energy Phys. 2020 (2020) 8526034, arXiv:1909.07599.
[Acero:2019fhe]
[8-99]
Exploring the effect of Lorentz invariance violation in NO$\nu$A experiment, Rudra Majhi, Soumya C, Rukmani Mohanta, Eur.Phys.J. C80 (2020) 364, arXiv:1907.09145.
[Majhi:2019tfi]
[8-100]
Neutrino oscillations at dual baselines, Minseok Cho, YeolLin ChoeJo, Hye-Sung Lee, Young-Min Lee, Sushant K. Raut, arXiv:1907.01185, 2019.
[Cho:2019ctv]
[8-101]
Quasi-Dirac neutrino oscillations at DUNE and JUNO, G. Anamiati, V. De Romeri, M. Hirsch, C. A. Ternes, M. Tortola, Phys.Rev. D100 (2019) 035032, arXiv:1907.00980.
[Anamiati:2019maf]
[8-102]
On the Role of the $\nu_\tau$ Appearance in DUNE in Constraining Standard Neutrino Physics and Beyond, Anish Ghoshal, Alessio Giarnetti, Davide Meloni, JHEP 1912 (2019) 126, arXiv:1906.06212.
[Ghoshal:2019pab]
[8-103]
A comparative study between ESSnuSB and T2HK in determining the leptonic CP phase, Monojit Ghosh, Tommy Ohlsson, Mod.Phys.Lett. A35 (2020) 2050058, arXiv:1906.05779.
[Ghosh:2019sfi]
[8-104]
Nuclear Effects and CP Sensitivity at DUNE, Srishti Nagu, Jaydip Singh, Jyotsna Singh, Adv.High Energy Phys. 2020 (2020) 5472713, arXiv:1906.02190.
[Nagu:2019fvi]
[8-105]
Impact of Cross-Sectional Uncertainties on DUNE Sensitivity due to Nuclear Effects, Srishti Nagu, Jaydip Singh, Jyotsna Singh, R.B. Singh, Nucl.Phys. B951 (2020) 114888, arXiv:1905.13101.
[Nagu:2019uco]
[8-106]
Physics with Beam Tau-Neutrino Appearance at DUNE, Andre de Gouvea, Kevin J. Kelly, G. V. Stenico, Pedro Pasquini, Phys.Rev. D100 (2019) 016004, arXiv:1904.07265.
[DeGouvea:2019kea]
[8-107]
Probing Non-Standard Lepton Number Violating Interactions in Neutrino Oscillations, Patrick D. Bolton, Frank F. Deppisch, Phys.Rev. D99 (2019) 115011, arXiv:1903.06557.
[Bolton:2019wta]
[8-108]
Enhancing the hierarchy and octant sensitivity of ESS$\nu$SB in conjunction with T2K, NO$\nu$A and ICAL@INO, Kaustav Chakraborty, Srubabati Goswami, Chandan Gupta, Tarak Thakore, JHEP 1905 (2019) 137, arXiv:1902.02963.
[Chakraborty:2019jlv]
[8-109]
Neutrino oscillation probabilities through the looking glass, Gabriela Barenboim, Peter B. Denton, Stephen J. Parke, Christoph A. Ternes, Phys.Lett. B791 (2019) 351-360, arXiv:1902.00517.
[Barenboim:2019pfp]
[8-110]
Non Unitarity at DUNE and T2HK with Charged and Neutral Current Measurements, Debajyoti Dutta, Samiran Roy, J.Phys. G48 (2021) 045004, arXiv:1901.11298.
[Dutta:2019hmb]
[8-111]
On $\theta_{23}$ Octant Measurement in $3+1$ Neutrino Oscillations in T2HKK, Naoyuki Haba, Yukihiro Mimura, Toshifumi Yamada, Phys.Rev. D101 (2020) 075034, arXiv:1812.10940.
[Haba:2018klh]
[8-112]
Exploring a New Degeneracy in the Sterile Neutrino Sector at Long-Baseline Experiments, Sandhya Choubey, Debajyoti Dutta, Dipyaman Pramanik, Eur.Phys.J. C79 (2019) 968, arXiv:1811.08684.
[Choubey:2018kqq]
[8-113]
Testing quantum decoherence at DUNE, Jose Carpio, Eduardo Massoni, Alberto Gago, Phys.Rev. D100 (2019) 015035, arXiv:1811.07923.
[Carpio:2018gum]
[8-114]
Developing the MeV Potential of DUNE: Detailed Considerations of Muon-Induced Spallation Backgrounds and More, Guanying Zhu, Shirley Weishi Li, John F. Beacom, Phys.Rev. C99 (2019) 055810, arXiv:1811.07912.
[Zhu:2018rwc]
[8-115]
Testing generalized CP symmetries with precision studies at DUNE, Newton Nath, Rahul Srivastava, Jose W. F. Valle, Phys.Rev. D99 (2019) 075005, arXiv:1811.07040.
[Nath:2018fvw]
[8-116]
Understanding the energy resolution of liquid argon neutrino detectors, Alexander Friedland, Shirley Weishi Li, Phys.Rev. D99 (2019) 036009, arXiv:1811.06159.
[Friedland:2018vry]
[8-117]
Global analysis of three-flavour neutrino oscillations: synergies and tensions in the determination of $\vartheta_{23}$, $\delta_{\text{CP}}$, and the mass ordering, Ivan Esteban, M.C. Gonzalez-Garcia, Alvaro Hernandez-Cabezudo, Michele Maltoni, Thomas Schwetz, JHEP 1901 (2019) 106, arXiv:1811.05487.
[Esteban:2018azc]
[8-118]
Probing CPT breaking induced by quantum decoherence at DUNE, J.C. Carrasco, F.N. Diaz, A.M. Gago, Phys.Rev. D99 (2019) 075022, arXiv:1811.04982.
[Carrasco:2018sca]
[8-119]
Tension between the latest T2K and NO$\nu$A data, Mohammad Nizam, Suman Bharti, Suprabh Prakash, Ushak Rahaman, S. Uma Sankar, Mod.Phys.Lett. A35 (2019) 2050021, arXiv:1811.01210.
[Nizam:2018got]
[8-120]
Non-standard interactions and parameter degeneracies in DUNE and T2HKK, Surender Verma, Shankita Bhardwaj, Adv.High Energy Phys. 2019 (2019) 8464535, arXiv:1808.04263.
[Verma:2018gwi]
[8-121]
Confusion and falsification in long-baseline experiments with NSI, L. J. Flores, E. A. Garces, O. G. Miranda, Phys.Rev. D98 (2018) 035030, arXiv:1806.07951.
[Flores:2018kwk]
[8-122]
Disentangling genuine from matter-induced CP violation in neutrino oscillations, J. Bernabeu, A. Segarra, Phys.Rev.Lett. 121 (2018) 211802, arXiv:1806.07694.
[Bernabeu:2018twl]
[8-123]
Statistical Significance of CP Violation in Long Baseline Neutrino Experiments, Walter Toki, Thomas W. Campbell, Erez Reinherz-Aronis, Nucl.Instrum.Meth. A921 (2019) 71-80, arXiv:1806.05266.
[Toki:2018fbu]
[8-124]
Millicharged particles in neutrino experiments, Gabriel Magill, Ryan Plestid, Maxim Pospelov, Yu-Dai Tsai, Phys.Rev.Lett. 122 (2019) 071801, arXiv:1806.03310.
[Magill:2018tbb]
[8-125]
Exploring the intrinsic Lorentz-violating parameters at DUNE, Gabriela Barenboim, Mehedi Masud, Christoph A. Ternes, Mariam Tortola, Phys.Lett. B788 (2019) 308-315, arXiv:1805.11094.
[Barenboim:2018ctx]
[8-126]
Tomography by neutrino pair beam, Takehiko Asaka, Hisashi Okui, Minoru Tanaka, Motohiko Yoshimura, Phys.Lett. B785 (2018) 536-542, arXiv:1805.10793.
[Asaka:2018rgk]
[8-127]
Understanding the degeneracies in NO$\nu$A data, Suman Bharti, Suprabh Prakash, Ushak Rahaman, S. Uma Sankar, JHEP 1809 (2018) 036, arXiv:1805.10182.
[Bharti:2018eyj]
[8-128]
Quantum Decoherence Effects in Neutrino Oscillations at DUNE, G. Balieiro Gomes, D. V. Forero, M. M. Guzzo, P. C. de Holanda, R. L. N. Oliveira, Phys.Rev. D100 (2019) 055023, arXiv:1805.09818.
[BalieiroGomes:2018gtd]
[8-129]
Consequences of $ \mu-\tau$ Reflection Symmetry at DUNE, Newton Nath, Phys.Rev. D98 (2018) 075015, arXiv:1805.05823.
[Nath:2018xkz]
[8-130]
Matter effects in neutrino visible decay at future long-baseline experiments, M. V. Ascencio-Sosa, A. M. Calatayud-Cadenillas, A. M. Gago, J. Jones-Perez, Eur.Phys.J. C78 (2018) 809, arXiv:1805.03279.
[Ascencio-Sosa:2018lbk]
[8-131]
Invisible neutrino decay in the light of NOvA and T2K data, Sandhya Choubey, Debajyoti Dutta, Dipyaman Pramanik, JHEP 1808 (2018) 141, arXiv:1805.01848.
[Choubey:2018cfz]
[8-132]
On the systematic uncertainties in DUNE and their role in New Physics studies, Davide Meloni, JHEP 1808 (2018) 028, arXiv:1805.01747.
[Meloni:2018xnk]
[8-133]
Current unknowns in the three neutrino framework, F. Capozzi, E. Lisi, A. Marrone, A. Palazzo, Prog.Part.Nucl.Phys. 102 (2018) 48-72, arXiv:1804.09678.
[Capozzi:2018ubv]
[8-134]
Non-Standard Neutrino Interactions in Modified $\nu$2HDM, Ujjal Kumar Dey, Newton Nath, Soumya Sadhukhan, Phys.Rev. D98 (2018) 055004, arXiv:1804.05808.
[Dey:2018yht]
[8-135]
The Effect of a Light Sterile Neutrino at NO$\nu$A and DUNE, Shivani Gupta, Zachary M. Matthews, Pankaj Sharma, Anthony G. Williams, Phys.Rev. D98 (2018) 035042, arXiv:1804.03361.
[Gupta:2018qsv]
[8-136]
Degeneracy resolution capabilities of NO$\nu$A and DUNE in the presence of light sterile neutrino, Akshay Chatla, Sahithi Rudrabhatla, Bindu A. Bambah, Adv.High Energy Phys. 2018 (2018) 2547358, arXiv:1804.02818.
[Chatla:2018sos]
[8-137]
Effect of final state interactions on neutrino energy reconstruction at DUNE, Sabeeha Naaz, Anupam Yadav, Jyotsna Singh, R. B. Singh, Nucl.Phys. B933 (2018) 40-52, arXiv:1804.02191.
[Naaz:2018amr]
[8-138]
Partial $\mu$-$\tau$ Reflection Symmetry and Its Verification at DUNE and Hyper-Kamiokande, Kaustav Chakraborty, K.N. Deepthi, Srubabati Goswami, Anjan S. Joshipura, Newton Nath, Phys.Rev. D98 (2018) 075031, arXiv:1804.02022.
[Chakraborty:2018dew]
[8-139]
Problems With the MINOS/MINOS+ Sterile Neutrino $\nu _\mu$ Result, W. C. Louis, arXiv:1803.11488, 2018.
[Louis:2018yeg]
[8-140]
Zooming in on neutrino oscillations with DUNE, Rahul Srivastava, Christoph A. Ternes, Mariam Tortola, Jose W. F. Valle, Phys.Rev. D97 (2018) 095025, arXiv:1803.10247.
[Srivastava:2018ser]
[8-141]
Future DUNE constraints on EFT, Adam Falkowski, Giovanni Grilli di Cortona, Zahra Tabrizi, JHEP 1804 (2018) 101, arXiv:1802.08296.
[Falkowski:2018dmy]
[8-142]
Matter Density Profile Shape Effects at DUNE, Kevin J. Kelly, Stephen J. Parke, Phys.Rev. D98 (2018) 015025, arXiv:1802.06784.
[Kelly:2018kmb]
[8-143]
Signatures of a Light Sterile Neutrino in T2HK, Sanjib Kumar Agarwalla, Sabya Sachi Chatterjee, Antonio Palazzo, JHEP 04 (2018) 091, arXiv:1801.04855.
[Agarwalla:2018nlx]
[8-144]
Features of Neutrino Mixing, S. H. Chiu, T. K. Kuo, Phys.Rev. D97 (2018) 055026, arXiv:1712.08487.
[Chiu:2017ckv]
[8-145]
Neutrinos, DUNE and the world best bound on CPT violation, Gabriela Barenboim, Christoph Andreas Ternes, Mariam Tortola, Phys.Lett. B780 (2018) 631-637, arXiv:1712.01714.
[Barenboim:2017ewj]
[8-146]
Spotlighting the sensitivities of T2HK,T2HKK and DUNE, Kaustav Chakraborty, K. N. Deepthi, Srubabati Goswami, Nucl.Phys.B 937 (2018) 303-332, arXiv:1711.11107.
[Chakraborty:2017ccm]
[8-147]
Testing a lepton quarticity flavor theory of neutrino oscillations with the DUNE experiment, Rahul Srivastava, C. A. Ternes, M. Tortola, J. W. F. Valle, Phys.Lett. B778 (2018) 459-463, arXiv:1711.10318.
[Srivastava:2017sno]
[8-148]
Measuring the Sterile Neutrino CP Phase at DUNE and T2HK, Sandhya Choubey, Debajyoti Dutta, Dipyaman Pramanik, Eur.Phys.J. C78 (2018) 339, arXiv:1711.07464.
[Choubey:2017ppj]
[8-149]
The effects of triplet Higgs bosons in long baseline neutrino experiments, Katri Huitu, Timo J. Karkkainen, Jukka Maalampi, Sampsa Vihonen, Phys.Rev. D97 (2018) 095037, arXiv:1711.02971.
[Huitu:2017cpc]
[8-150]
Addressing Neutrino Mixing Schemes with DUNE and T2HK, Sanjib Kumar Agarwalla, Sabya Sachi Chatterjee, S. T. Petcov, A. V. Titov, Eur.Phys.J. C78 (2018) 286, arXiv:1711.02107.
[Agarwalla:2017wct]
[8-151]
Neutrino Parameters from Reactor and Accelerator Neutrino Experiments, Manfred Lindner, Werner Rodejohann, Xun-Jie Xu, Phys.Rev.D 97 (2018) 075024, arXiv:1709.10252.
[Lindner:2017nmb]
[8-152]
Testing NSI suggested by the solar neutrino tension in T2HKK and DUNE, Monojit Ghosh, Osamu Yasuda, Mod.Phys.Lett. A35 (2020) 2050142, arXiv:1709.08264.
[Ghosh:2017lim]
[8-153]
Neutrino vs. Antineutrino Oscillation Parameters at DUNE and Hyper-Kamiokande, Andre de Gouvea, Kevin J. Kelly, Phys.Rev. D96 (2017) 095018, arXiv:1709.06090.
[deGouvea:2017yvn]
[8-154]
Decoherence, matter effect, neutrino hierarchy signature in long baseline experiments, Joao A. B. Coelho, W. Anthony Mann, Phys.Rev. D96 (2017) 093009, arXiv:1708.05495.
[Coelho:2017byq]
[8-155]
Non-unitarity lepton mixing in an inverse seesaw and its impact on the physics potential of long-baseline experiments, Soumya C, Rukmani Mohanta, arXiv:1708.05372, 2017.
[C:2017scx]
[8-156]
Determination of the $\theta_{23}$ octant in long baseline neutrino experiments within and beyond the Standard Model, C.R. Das, Jukka Maalampi, Joao Pulido, Sampsa Vihonen, Phys.Rev. D97 (2018) 035023, arXiv:1708.05182.
[Das:2017fcz]
[8-157]
Probing Direct and Indirect Unitarity Violation in Future Accelerator Neutrino Facilities, Jian Tang, Yibing Zhang, Yu-Feng Li, Phys.Lett. B774 (2017) 217-224, arXiv:1708.04909.
[Tang:2017khg]
[8-158]
Reactor and Atmospheric Neutrino Mixing Angles' Correlation as a Probe for New Physics, Pedro Pasquini, Phys.Rev. D96 (2017) 095021, arXiv:1708.04294.
[Pasquini:2017hby]
[8-159]
What measurements of neutrino neutral current events can reveal, Raj Gandhi, Boris Kayser, Suprabh Prakash, Samiran Roy, JHEP 1711 (2017) 202, arXiv:1708.01816.
[Gandhi:2017vzo]
[8-160]
Status of neutrino oscillations 2017, P. F. de Salas, D. V. Forero, C. A. Ternes, M. Tortola, J. W. F. Valle, Phys.Lett. B782 (2018) 633-640, arXiv:1708.01186.
[deSalas:2017kay]
[8-161]
DUNE sensitivities to the mixing between sterile and tau neutrinos, Pilar Coloma, David V. Forero, Stephen J. Parke, PoS NuFact2017 (2017) 134, arXiv:1707.05348.
[Coloma:2017ptb]
[8-162]
Matter Density versus Distance for the Neutrino Beam from Fermilab to Lead, South Dakota, and Comparison of Oscillations with a Variable and a Constant Density, Byron Roe, Phys.Rev. D95 (2017) 113004, arXiv:1707.02322.
[Roe:2017zdw]
[8-163]
Prospects for the Mass Ordering (MO) and $\theta_{23}$-Octant sensitivity in LBL experiments: UNO, DUNE \& NO$\nu$A, Mandip Singh, arXiv:1706.06473, 2017.
[Singh:2017vvh]
[8-164]
Distorted Neutrino Oscillations From Ultralight Scalar Dark Matter, Gordan Krnjaic, Pedro A. N. Machado, Lina Necib, Phys.Rev. D97 (2018) 075017, arXiv:1705.06740.
[Krnjaic:2017zlz]
[8-165]
A Study of Invisible Neutrino Decay at DUNE and its Effects on $\theta_{23}$ Measurement, Sandhya Choubey, Srubabati Goswami, Dipyaman Pramanik, JHEP 1802 (2018) 055, arXiv:1705.05820.
[Choubey:2017dyu]
[8-166]
Heavy neutrino mixing in the T2HK, the T2HKK and an extension of the T2HK with a detector at Oki Islands, Yugo Abe, Yusuke Asano, Naoyuki Haba, Toshifumi Yamada, Eur.Phys.J. C77 (2017) 851, arXiv:1705.03818.
[Abe:2017jit]
[8-167]
Visible neutrino decay at DUNE, Pilar Coloma, Orlando L. G. Peres, arXiv:1705.03599, 2017.
[Coloma:2017zpg]
[8-168]
Visible neutrino decay in the light of appearance and disappearance long baseline experiments, Alberto M. Gago, Ricardo A. Gomes, Abner L. G. Gomes, Joel Jones-Perez, Orlando L. G. Peres, JHEP 1711 (2017) 022, arXiv:1705.03074.
[Gago:2017zzy]
[8-169]
Implications of the latest NO$ \nu$A results, Srubabati Goswami, Newton Nath, arXiv:1705.01274, 2017.
[Goswami:2017hcw]
[8-170]
Extricating New Physics Scenarios at DUNE with High Energy Beams, Mehedi Masud, Mary Bishai, Poonam Mehta, Sci.Rep. 9 (2019) 352, arXiv:1704.08650.
[Masud:2017bcf]
[8-171]
Imprints of a light Sterile Neutrino at DUNE, T2HK and T2HKK, Sandhya Choubey, Debajyoti Dutta, Dipyaman Pramanik, Phys.Rev. D96 (2017) 056026, arXiv:1704.07269.
[Choubey:2017cba]
[8-172]
A hybrid setup for fundamental unknowns in neutrino oscillations using T2HK ($\nu$) and $\mu$-DAR ($\bar\nu$), Sanjib Kumar Agarwalla, Monojit Ghosh, Sushant K. Raut, JHEP 1705 (2017) 115, arXiv:1704.06116.
[Agarwalla:2017nld]
[8-173]
Study of parameter degeneracy and hierarchy sensitivity of NO$\nu$A in presence of sterile neutrino, Monojit Ghosh, Shivani Gupta, Zachary M. Matthews, Pankaj Sharma, Anthony G. Williams, Phys.Rev. D96 (2017) 075018, arXiv:1704.04771.
[Ghosh:2017atj]
[8-174]
T2HK and T2HKK: Does more matter matter?, Sushant K. Raut, Phys.Rev. D96 (2017) 075029, arXiv:1703.07136.
[Raut:2017dbh]
[8-175]
Mass hierarchy and CP-phase sensitivity of ORCA using Fermilab Neutrino Beam, Ushak Rahaman, Soebur Razzaque, Phys.Rev. D96 (2017) 073007, arXiv:1703.04438.
[Rahaman:2017hua]
[8-176]
Resolving the atmospheric octant by an improved measurement of the reactor angle, Sabya Sachi Chatterjee, Pedro Pasquini, J. W. F. Valle, Phys.Rev. D96 (2017) 011303, arXiv:1703.03435.
[Chatterjee:2017irl]
[8-177]
Searches for New Physics at the Hyper-Kamiokande Experiment, Kevin J. Kelly, Phys.Rev. D95 (2017) 115009, arXiv:1703.00448.
[Kelly:2017kch]
[8-178]
Effect of systematics in T2HK, T2HKK and DUNE, Monojit Ghosh, Osamu Yasuda, Phys.Rev. D96 (2017) 013001, arXiv:1702.06482.
[Ghosh:2017ged]
[8-179]
Scanning the Earth with solar neutrinos and DUNE, Ara Ioannisian, Alexei Smirnov, Daniel Wyler, Phys.Rev. D96 (2017) 036005, arXiv:1702.06097.
[Ioannisian:2017dkx]
[8-180]
Nonmaximal $\theta_{23}$ mixing at NOvA from neutrino decoherence, Joao A. B. Coelho, W. Anthony Mann, Saqib S. Bashar, Phys.Rev.Lett. 118 (2017) 221801, arXiv:1702.04738.
[Coelho:2017zes]
[8-181]
Probing atmospheric mixing and leptonic CP violation in current and future long baseline oscillation experiments, Sabya Sachi Chatterjee, Pedro Pasquini, J.W.F. Valle, Phys.Lett. B771 (2017) 524-531, arXiv:1702.03160.
[Chatterjee:2017xkb]
[8-182]
Can we probe intrinsic CP/T violation and non-unitarity at long baseline accelerator experiments?, Jogesh Rout, Mehedi Masud, Poonam Mehta, Phys.Rev. D95 (2017) 075035, arXiv:1702.02163.
[Rout:2017udo]
[8-183]
Impact of lepton flavour universality violation on CP violation sensitivity of long baseline neutrino oscillation experiments, Soumya C., R. Mohanta, Eur.Phys.J. C77 (2017) 32, arXiv:1701.00327.
[C:2017rlz]
[8-184]
Joint short- and long-baseline constraints on light sterile neutrinos, Francesco Capozzi, Carlo Giunti, Marco Laveder, Antonio Palazzo, Phys.Rev. D95 (2017) 033006, arXiv:1612.07764.
[Capozzi:2016vac]
[8-185]
Probing CP violation with non-unitary mixing in long-baseline neutrino oscillation experiments: DUNE as a case study, F. J. Escrihuela, D. V. Forero, O. G. Miranda, M. Tortola, J. W. F. Valle, New J.Phys. 19 (2017) 093005, arXiv:1612.07377.
[Escrihuela:2016ube]
[8-186]
Sensitivities and synergies of DUNE and T2HK, Peter Ballett, Stephen F. King, Silvia Pascoli, Nick W. Prouse, TseChun Wang, Phys.Rev. D96 (2017) 033003, arXiv:1612.07275.
[Ballett:2016daj]
[8-187]
Discriminating sterile neutrinos and unitarity violation with CP invariants, Heinrich Pas, Philipp Sicking, Phys.Rev. D95 (2017) 075004, arXiv:1611.08450.
[Pas:2016qbg]
[8-188]
Sensitivity of the T2HKK experiment to the non-standard interaction, Shinya Fukasawa, Monojit Ghosh, Osamu Yasuda, Phys.Rev. D95 (2017) 055005, arXiv:1611.06141.
[Fukasawa:2016lew]
[8-189]
Updated fit to three neutrino mixing: exploring the accelerator-reactor complementarity, Ivan Esteban, M. C. Gonzalez-Garcia, Michele Maltoni, Ivan Martinez-Soler, Thomas Schwetz, JHEP 1701 (2017) 087, arXiv:1611.01514.
[Esteban:2016qun]
[8-190]
Probing Majorana Neutrino Textures at DUNE, Kalpana Bora, Debasish Borah, Debajyoti Dutta, Phys.Rev. D96 (2017) 075006, arXiv:1611.01097.
[Bora:2016ygl]
[8-191]
Octant of $\theta_{23}$ at long baseline neutrino experiments in the light of Non Unitary Leptonic mixing, Debajyoti Dutta, Pomita Ghoshal, Sandeep K. Sehrawat, Phys.Rev. D95 (2017) 095007, arXiv:1610.07203.
[Dutta:2016eks]
[8-192]
Neutrino oscillations from warped flavor symmetry: predictions for long baseline experiments T2K, NOvA and DUNE, Pedro Pasquini, S. C. Chulia, J. W. F. Valle, Phys.Rev. D95 (2017) 095030, arXiv:1610.05962.
[Pasquini:2016kwk]
[8-193]
Looking into Analytical Approximations for Three-flavor Neutrino Oscillation Probabilities in Matter, Yu-Feng Li, Jue Zhang, Shun Zhou, Jing-yu Zhu, JHEP 1612 (2016) 109, arXiv:1610.04133.
[Li:2016pzm]
[8-194]
Effect of Non Unitarity on Neutrino Mass Hierarchy determination at DUNE, NO$\nu$A and T2K, Debajyoti Dutta, Pomita Ghoshal, Samiran Roy, Nucl.Phys. B920 (2017) 385-401, arXiv:1609.07094.
[Dutta:2016czj]
[8-195]
Systematic uncertainties in long-baseline neutrino-oscillation experiments, Artur M Ankowski, Camillo Mariani, J.Phys. G44 (2017) 054001, arXiv:1609.00258.
[Ankowski:2016jdd]
[8-196]
Studying the physics potential of long-baseline experiments in terms of new sensitivity parameters, Mandip Singh, PTEP 2016 (2016) 103B03, arXiv:1608.06711.
[Singh:2016dbs]
[8-197]
Sizable NSI from the $SU(2)_L$ scalar doublet-singlet mixing and the implications in DUNE, David V. Forero, Wei-Chih Huang, JHEP 1703 (2017) 018, arXiv:1608.04719.
[Forero:2016ghr]
[8-198]
Density vs distance for the DUNE beam from two recent geology density maps, Byron P. Roe, Phys.Rev. D95 (2017) 113004, arXiv:1608.03802.
[Roe:2016pom]
[8-199]
Complementarity Between Hyperkamiokande and DUNE in Determining Neutrino Oscillation Parameters, Shinya Fukasawa, Monojit Ghosh, Osamu Yasuda, Nucl.Phys. B918 (2017) 337-357, arXiv:1607.03758.
[Fukasawa:2016yue]
[8-200]
Probing CP violation with T2K, NO$\nu$A and DUNE in the presence of non-unitarity, Debajyoti Dutta, Pomita Ghoshal, JHEP 1609 (2016) 110, arXiv:1607.02500.
[Dutta:2016vcc]
[8-201]
Capabilities of long-baseline experiments in the presence of a sterile neutrino, Debajyoti Dutta, Raj Gandhi, Boris Kayser, Mehedi Masud, Suprabh Prakash, JHEP 1611 (2016) 122, arXiv:1607.02152.
[Dutta:2016glq]
[8-202]
Degeneracy between $\theta_{23}$ octant and neutrino non-standard interactions at DUNE, Sanjib Kumar Agarwalla, Sabya Sachi Chatterjee, Antonio Palazzo, Phys.Lett. B762 (2016) 64-71, arXiv:1607.01745.
[Agarwalla:2016fkh]
[8-203]
Neutrino oscillations at DUNE with improved energy reconstruction, Valentina De Romeri, Enrique Fernandez-Martinez, Michel Sorel, JHEP 1609 (2016) 030, arXiv:1607.00293.
[DeRomeri:2016qwo]
[8-204]
Determination of the neutrino mass hierarchy with a new statistical method, L. Stanco, S. Dusini, M. Tenti, Phys.Rev.D 95 (2017) 053002, arXiv:1606.09454.
[Stanco:2016lkl]
[8-205]
A combined study of source, detector and matter non-standard neutrino interactions at DUNE, Mattias Blennow, Sandhya Choubey, Tommy Ohlsson, Dipyaman Pramanik, Sushant K. Raut, JHEP 1608 (2016) 090, arXiv:1606.08851.
[Blennow:2016etl]
[8-206]
Non-standard interactions and the resolution of ordering of neutrino masses at DUNE and other long baseline experiments, Mehedi Masud, Poonam Mehta, Phys. Rev. D94 (2016) 053007, arXiv:1606.05662.
[Masud:2016nuj]
[8-207]
Connecting Leptonic Unitarity Triangle to Neutrino Oscillation with CP Violation in Vacuum and in Matter, Hong-Jian He, Xun-Jie Xu, Phys.Rev. D95 (2017) 033002, arXiv:1606.04054.
[He:2016dco]
[8-208]
Optimizing the $\theta_{23}$ octant search in long baseline neutrino experiments, C.R. Das, Jukka Maalampi, Joao Pulido, Sampsa Vihonen, J.Phys.Conf.Ser. 888 (2017) 012219, arXiv:1606.02504.
[Das:2016bwe]
[8-209]
Octant Degeneracy, Quadrant of leptonic CPV phase at Long Baseline Neutrino Experiments and Baryogenesis, Kalpana Bora, Gayatri Ghosh, Debajyoti Dutta, Adv.High Energy Phys. 2016 (2016) 9496758, arXiv:1606.00554.
[Bora:2016tmb]
[8-210]
False Signals of CP-Invariance Violation at DUNE, Andre de Gouvea, Kevin J. Kelly, arXiv:1605.09376, 2016.
[deGouvea:2016pom]
[8-211]
Octant of $\theta_{23}$ in danger with a light sterile neutrino, Sanjib Kumar Agarwalla, Sabya Sachi Chatterjee, Antonio Palazzo, Phys. Rev. Lett. 118 (2017) 031804, arXiv:1605.04299.
[Agarwalla:2016xlg]
[8-212]
Revisiting T2KK and T2KO physics potential and $\nu_\mu$ - $\bar\nu_\mu$ beam ratio, Kaoru Hagiwara, Pyungwon Ko, Naotoshi Okamura, Yoshitaro Takaesu, Eur.Phys.J. C77 (2017) 138, arXiv:1605.02368.
[Hagiwara:2016qtb]
[8-213]
Measuring the Leptonic CP Phase in Neutrino Oscillations with Non-Unitary Mixing, Shao-Feng Ge, Pedro Pasquini, M. Tortola, J. W. F. Valle, Phys.Rev. D95 (2017) 033005, arXiv:1605.01670.
[Ge:2016xya]
[8-214]
Terrestrial matter effects on reactor antineutrino oscillations at JUNO or RENO-50: how small is small?, Yu-Feng Li, Yifang Wang, Zhi-zhong Xing, Chin.Phys. C40 (2016) 091001, arXiv:1605.00900.
[Li:2016txk]
[8-215]
Towards extracting the best possible results from NOvA, C. Soumya, R. Mohanta, Eur.Phys.J. C76 (2016) 302, arXiv:1605.00523.
[C:2016iqx]
[8-216]
Enhanced tau neutrino appearance through invisible decay, Giulia Pagliaroli, Natalia Di Marco, Massimo Mannarelli, Phys. Rev. D93 (2016) 113011, arXiv:1603.08696.
[Pagliaroli:2016zab]
[8-217]
Dissipative Effect in Long Baseline Neutrino Experiments, Roberto L. N. Oliveira, Eur.Phys.J. C76 (2016) 417, arXiv:1603.08065.
[Oliveira:2016asf]
[8-218]
Some uncertainties of neutrino oscillation effect in the NO$\nu$A experiment, Lyudmila D. Kolupaeva, Konstantin S. Kuzmin, Olga N. Petrova, Igor M. Shandrov, Mod.Phys.Lett. A31 (2016) 1650077, arXiv:1603.07451.
[Kolupaeva:2016bfg]
[8-219]
Parameter Limits for Neutrino Oscillation with Decoherence in KamLAND, G. Balieiro Gomes, M. M. Guzzo, P. C. de Holanda, R. L. N. Oliveira, Phys.Rev. D95 (2017) 113005, arXiv:1603.04126.
[BalieiroGomes:2016ykp]
[8-220]
Physics Reach of DUNE with a Light Sterile Neutrino, Sanjib Kumar Agarwalla, Sabya Sachi Chatterjee, Antonio Palazzo, JHEP 1609 (2016) 016, arXiv:1603.03759.
[Agarwalla:2016xxa]
[8-221]
Implications of lepton flavour violation on long baseline neutrino oscillation experiments, C Soumya, R. Mohanta, Phys. Rev. D94 (2016) 053008, arXiv:1603.02184.
[C:2016nrg]
[8-222]
Matter-enhanced CP violation and Dirac unitarity triangles in a low-energy medium-baseline neutrino oscillation experiment, Zhi-zhong Xing, Jing-yu Zhu, JHEP 1607 (2016) 011, arXiv:1603.02002.
[Xing:2016ymg]
[8-223]
Non-standard interactions spoiling the CP violation sensitivity at DUNE and other long baseline experiments, Mehedi Masud, Poonam Mehta, Phys. Rev. D94 (2016) 013014, arXiv:1603.01380.
[Masud:2016bvp]
[8-224]
Large, Extra Dimensions at the Deep Underground Neutrino Experiment, Jeffrey M. Berryman, Andre de Gouvea, Kevin J. Kelly, O.L.G. Peres, Zahra Tabrizi, Phys. Rev. D94 (2016) 033006, arXiv:1603.00018.
[Berryman:2016szd]
[8-225]
Neutrino masses and mixings: Status of known and unknown $3\nu$ parameters, F. Capozzi, E. Lisi, A. Marrone, D. Montanino, A. Palazzo, Nucl. Phys. B908 (2016) 218-234, arXiv:1601.07777.
[Capozzi:2016rtj]
[8-226]
Constraining the non-standard interaction parameters in long baseline neutrino experiments, Katri Huitu, Timo J. Karkkainen, Jukka Maalampi, Sampsa Vihonen, Phys. Rev. D93 (2016) 053016, arXiv:1601.07730.
[Huitu:2016bmb]
[8-227]
Discovery Potential of T2K and NOvA in the Presence of a Light Sterile Neutrino, Sanjib Kumar Agarwalla, Sabya Sachi Chatterjee, Arnab Dasgupta, Antonio Palazzo, JHEP 02 (2016) 111, arXiv:1601.05995.
[Agarwalla:2016mrc]
[8-228]
Degeneracies in long-baseline neutrino experiments from nonstandard interactions, Jiajun Liao, Danny Marfatia, Kerry Whisnant, Phys. Rev. D93 (2016) 093016, arXiv:1601.00927.
[Liao:2016hsa]
[8-229]
Reason for T2K to run in dominant neutrino mode for detecting CP violation, Monojit Ghosh, Phys. Rev. D93 (2016) 073003, arXiv:1512.02226.
[Ghosh:2015tan]
[8-230]
The Physics of antineutrinos in DUNE and resolution of octant degeneracy, Newton Nath, Monojit Ghosh, Srubabati Goswami, Nucl. Phys. B913 (2016) 381-404, arXiv:1511.07496.
[Nath:2015kjg]
[8-231]
Non-Standard Interactions in propagation at the Deep Underground Neutrino Experiment, Pilar Coloma, JHEP 03 (2016) 016, arXiv:1511.06357.
[Coloma:2015kiu]
[8-232]
Non-standard Neutrino Interactions at DUNE, Andre de Gouvea, Kevin J. Kelly, Nucl. Phys. B908 (2016) 318-335, arXiv:1511.05562.
[deGouvea:2015ndi]
[8-233]
The MOMENT to search for CP violation, Mattias Blennow, Pilar Coloma, Enrique Fernandez-Martinez, JHEP 1603 (2016) 197, arXiv:1511.02859.
[Blennow:2015cmn]
[8-234]
Update on two-zero textures of the Majorana neutrino mass matrix in light of recent T2K, Super-Kamiokande and NO$\nu$A results, Shun Zhou, Chin. Phys. C40 (2016) 033102, arXiv:1509.05300.
[Zhou:2015qua]
[8-235]
Exploring Flavor-Dependent Long-Range Forces in Long-Baseline Neutrino Oscillation Experiments, Sabya Sachi Chatterjee, Arnab Dasgupta, Sanjib Kumar Agarwalla, JHEP 12 (2015) 167, arXiv:1509.03517.
[Chatterjee:2015gta]
[8-236]
3-flavor and 4-flavor implications of the latest T2K and NO$\nu$A electron (anti-)neutrino appearance results, Antonio Palazzo, Phys.Lett. B757 (2016) 142-147, arXiv:1509.03148.
[Palazzo:2015gja]
[8-237]
The impact of sterile neutrinos on CP measurements at long baselines, Raj Gandhi, Boris Kayser, Mehedi Masud, Suprabh Prakash, JHEP 11 (2015) 039, arXiv:1508.06275.
[Gandhi:2015xza]
[8-238]
Bayesian global analysis of neutrino oscillation data, Johannes Bergstrom, M. C. Gonzalez-Garcia, Michele Maltoni, Thomas Schwetz, JHEP 09 (2015) 200, arXiv:1507.04366.
[Bergstrom:2015rba]
[8-239]
A Sterile Neutrino at DUNE, Jeffrey M. Berryman, Andre de Gouvea, Kevin J. Kelly, Andrew Kobach, Phys. Rev. D92 (2015) 073012, arXiv:1507.03986.
[Berryman:2015nua]
[8-240]
On the determination of the leptonic CP phase, Jessica Elevant, Thomas Schwetz, JHEP 09 (2015) 016, arXiv:1506.07685.
[Elevant:2015ska]
[8-241]
The Leptonic CP Phase from T2(H)K and Muon Decay at Rest, Jarah Evslin, Shao-Feng Ge, Kaoru Hagiwara, JHEP 02 (2016) 137, arXiv:1506.05023.
[Evslin:2015pya]
[8-242]
Identifying and resolving the degeneracies in neutrino oscillation parameters in current experiments, Monojit Ghosh, Pomita Ghoshal, Srubabati Goswami, Newton Nath, Sushant K. Raut, Phys. Rev. D93 (2016) 013013, arXiv:1504.06283.
[Ghosh:2015ena]
[8-243]
Statistical Constraints on the Error of the Leptonic CP Violation of Neutrinos, Kai Fu, Ying Zhang, Phys.Lett. B746 (2015) 104-108, arXiv:1504.01487.
[Fu:2015rfa]
[8-244]
Measuring $\theta_{12}$ Despite an Uncertain Reactor Neutrino Spectrum, Emilio Ciuffoli, Jarah Evslin, Marco Grassi, Xinmin Zhang, Nucl. Phys. B903 (2016) 1-9, arXiv:1503.05126.
[Ciuffoli:2015dsa]
[8-245]
Consistent analysis of the $\nu_\mu\to \nu_e$ sterile neutrinos searches of ICARUS and OPERA, Antonio Palazzo, Phys. Rev. D91 (2015) 091301, arXiv:1503.03966.
[Palazzo:2015wea]
[8-246]
Spectrometry of the Earth using Neutrino Oscillations, Carsten Rott, Akimichi Taketa, Debanjan Bose, Sci.Rep. 5 (2015) 15225, arXiv:1502.04930.
[Rott:2015kwa]
[8-247]
On the complementarity of Hyper-K and LBNF, J. Cao et al. (ICFA Neutrino Panel), arXiv:1501.03918, 2015.
[ICFANeutrinoPanel:2015chn]
[8-248]
Reactor Neutrino Flux Uncertainty Suppression on Multiple Detector Experiments, Andi Cucoanes et al., arXiv:1501.00356, 2015.
[Cucoanes:2015pla]
[8-249]
Estimating matter induced CPT violation in Long-Baseline Neutrino Experiments, Monika Randhawa, Mandip Singh, Manmohan Gupta, Phys. Rev. D91 (2015) 017301, arXiv:1412.4903.
[Randhawa:2014nea]
[8-250]
Economizing the LBNE configuration with current experiments, Monojit Ghosh, Srubabati Goswami, Sushant K. Raut, Eur. Phys. J. C76 (2016) 114, arXiv:1412.1744.
[Ghosh:2014rna]
[8-251]
Probing new physics scenarios in accelerator and reactor neutrino experiments, A. Di Iura, I. Girardi, D. Meloni, J. Phys. G42 (2015) 065003, arXiv:1411.5330.
[DiIura:2014csa]
[8-252]
Determination of the $\theta_{23}$ octant in LBNO, C.R. Das, Jukka Maalampi, Joao Pulido, Sampsa Vihonen, JHEP 1502 (2015) 048, arXiv:1411.2829.
[Das:2014fja]
[8-253]
The Case for Muon-based Neutrino Beams, Patrick Huber, Alan Bross, Mark Palmer, arXiv:1411.0629, 2014.
[Huber:2014nga]
[8-254]
Velocity Induced Neutrino Oscillation and its Possible Implications for Long Baseline Neutrinos, Amit Dutta Banik, Debasish Majumdar, Mod.Phys.Lett. A30 (2014) 1550001, arXiv:1411.0385.
[DuttaBanik:2014rjj]
[8-255]
Probing CP violation at LBNE with reactor experiments, Debajyoti Dutta, kalpana Bora, Mod.Phys.Lett. A30 (2015) 1550017, arXiv:1409.8248.
[Dutta:2014yra]
[8-256]
Updated fit to three neutrino mixing: status of leptonic CP violation, M.C. Gonzalez-Garcia, Michele Maltoni, Thomas Schwetz, JHEP 1411 (2014) 052, arXiv:1409.5439.
[Gonzalez-Garcia:2014bfa]
[8-257]
A comprehensive study of the discovery potential of NOvA and T2K experiments, Soumya C., K. N. Deepthi, R. Mohanta, Adv.High Energy Phys. 2016 (2016) 9139402, arXiv:1408.6071.
[C:2014mmz]
[8-258]
Four-Neutrino Analysis of 1.5 km Baseline Reactor Antineutrino Oscillations, Sin Kyu Kang, Yeong-Duk Kim, Young-Ju Ko, Kim Siyeon, Adv.High Energy Phys. 2013 (2013) 138109, arXiv:1408.3211.
[Kang:2013zma]
[8-259]
Sterile neutrinos at LBNE, David Hollander, Irina Mocioiu, Phys. Rev. D91 (2015) 013002, arXiv:1408.1749.
[Hollander:2014iha]
[8-260]
Probing Neutrino Oscillation Parameters using High Power Superbeam from ESS, Sanjib Kumar Agarwalla, Sandhya Choubey, Suprabh Prakash, JHEP 1412 (2014) 020, arXiv:1406.2219.
[Agarwalla:2014tpa]
[8-261]
Neutrino oscillations refitted, D. V. Forero, M. Tortola, J. W. F. Valle, Phys. Rev. D90 (2014) 093006, arXiv:1405.7540.
[Forero:2014bxa]
[8-262]
Determining the Octant of $\theta_{23}$ at LBNE in conjunction with Reactor Experiments, Kalpana Bora, Debajyoti Dutta, Pomita Ghoshal, Mod.Phys.Lett. A30 (2015) 1550066, arXiv:1405.7482.
[Bora:2014zwa]
[8-263]
Configurations of the Long-Baseline Neutrino Experiment, Vernon Barger et al., Int. J. Mod. Phys. A31 (2016) 1650020, arXiv:1405.1054.
[Barger:2014dfa]
[8-264]
The Daya Bay and T2K results on $\sin^2 2 \theta_{13}$ and Non-Standard Neutrino Interactions, I. Girardi, D. Meloni, S. T. Petcov, Nucl. Phys. B886 (2014) 31-42, arXiv:1405.0416.
[Girardi:2014kca]
[8-265]
Residual Symmetries Applied to Neutrino Oscillations at NO$\nu$A and T2K, Andrew D. Hanlon, Wayne W. Repko, Duane A. Dicus, Adv.High Energy Phys. 2014 (2014) 469572, arXiv:1403.7552.
[Hanlon:2014bga]
[8-266]
A limit on exotic $\nu_{\mu}$ - $\nu_{\tau}$ oscillations derived from results of the OPERA experiment, P. F. Loverre, arXiv:1403.1475, 2014.
[Loverre:2014vea]
[8-267]
Evidence for leptonic CP phase from NO$\nu$A, T2K and ICAL: A chronological progression, Monojit Ghosh, Pomita Ghoshal, Srubabati Goswami, Sushant K. Raut, Nucl. Phys. B884 (2014) 274-304, arXiv:1401.7243.
[Ghosh:2014dba]
[8-268]
Search for Sub-eV Sterile Neutrinos in the Precision Multiple Baselines Reactor Antineutrino Oscillation Experiments, Shu Luo, Nucl. Phys. B899 (2015) 312-327, arXiv:1401.0292.
[Luo:2014vha]
[8-269]
Status of three-neutrino oscillation parameters, circa 2013, F. Capozzi, G.L. Fogli, E. Lisi, A. Marrone, D. Montanino, A. Palazzo, Phys. Rev. D89 (2014) 093018, arXiv:1312.2878.
[Capozzi:2013csa]
[8-270]
High-precision measurement of atmospheric mass-squared splitting with T2K and NOvA, Sanjib Kumar Agarwalla, Suprabh Prakash, Wei Wang, arXiv:1312.1477, 2013.
[Agarwalla:2013qfa]
[8-271]
Energy reconstruction in the Long-Baseline Neutrino Experiment, Ulrich Mosel, Olga Lalakulich, Kai Gallmeister, Phys. Rev. Lett. 112 (2014) 151802, arXiv:1311.7288.
[Mosel:2013fxa]
[8-272]
Baseline optimization for the measurement of CP violation and mass hierarchy in a long-baseline neutrino oscillation experiment, M. Bass et al. (LBNE), Phys. Rev. D91 (2015) 052015, arXiv:1311.0212.
[Bass:2013vcg]
[8-273]
Nonstandard interaction effects on neutrino parameters at medium-baseline reactor antineutrino experiments, Tommy Ohlsson, He Zhang, Shun Zhou, Phys.Lett. B728 (2014) 148-155, arXiv:1310.5917.
[Ohlsson:2013nna]
[8-274]
Determining the Octant of $\theta_{23}$ with PINGU, T2K, NOvA and Reactor Data, Sandhya Choubey, Anushree Ghosh, JHEP 1311 (2013) 166, arXiv:1309.5760.
[Choubey:2013xqa]
[8-275]
Probing light sterile neutrinos in medium baseline reactor experiments, Arman Esmaili, Ernesto Kemp, O. L. G. Peres, Zahra Tabrizi, Phys. Rev. D88 (2013) 073012, arXiv:1308.6218.
[Esmaili:2013yea]
[8-276]
Synergies between neutrino oscillation experiments: An `adequate' configuration for LBNO, Monojit Ghosh, Pomita Ghoshal, Srubabati Goswami, Sushant K. Raut, JHEP 1403 (2014) 094, arXiv:1308.5979.
[Ghosh:2013pfa]
[8-277]
Constraints on very light sterile neutrinos from $\theta_{13}$-sensitive reactor experiments, Antonio Palazzo, JHEP 1310 (2013) 172, arXiv:1308.5880.
[Palazzo:2013bsa]
[8-278]
Unitarity Tests of the Neutrino Mixing Matrix, X. Qian, C. Zhang, M. Diwan, P. Vogel, arXiv:1308.5700, 2013.
[Qian:2013ora]
[8-279]
Checking Flavour Models at Neutrino Facilities, Davide Meloni, Phys.Lett. B728 (2014) 118-124, arXiv:1308.4578.
[Meloni:2013qda]
[8-280]
Testing atmospheric mixing sum rules at precision neutrino facilities, Peter Ballett, Stephen F. King, Christoph Luhn, Silvia Pascoli, Michael A. Schmidt, Phys. Rev. D89 (2014) 016016, arXiv:1308.4314.
[Ballett:2013wya]
[8-281]
A Second Detector Focusing on the Second Oscillation Maximum at an Off-axis Location to Enhance the Mass Hierarchy Discovery Potential in LBNE10, X. Qian et al., arXiv:1307.7406, 2013.
[Qian:2013nhp]
[8-282]
More than One Way to Find the Neutrino Mixing Angle Theta13 from Reactor Data, Amir N. Khan, Douglas W. McKay, John P. Ralston, Int.J.Mod.Phys. A29 (2014) 1450109, arXiv:1307.3299.
[Khan:2013nya]
[8-283]
What can we learn about the lepton CP phase in the next 10 years?, P. A. N. Machado, H.Minakata, H. Nunokawa, R. Zukanovich Funchal, JHEP 1405 (2014) 109, arXiv:1307.3248.
[Machado:2013kya]
[8-284]
Configuring the Long-Baseline Neutrino Experiment, Vernon Barger et al., Phys. Rev. D89 (2014) 011302, arXiv:1307.2519.
[Barger:2013rha]
[8-285]
Impact of nuclear effects on the extraction of oscillation parameters, P. Coloma, P. Huber, Phys. Rev. Lett. 111 (2013) 221802, arXiv:1307.1243.
[Coloma:2013rqa]
[8-286]
The need for an early anti-neutrino run of NOvA, Suprabh Prakash, Ushak Rahaman, S. Uma Sankar, JHEP 1407 (2014) 070, arXiv:1306.4125.
[Prakash:2013dua]
[8-287]
Sensitivity of medium-baseline reactor neutrino mass-hierarchy experiments to nonstandard interactions, Amir N. Khan, Douglas W. McKay, Phys. Rev. D88 (2013) 113006, arXiv:1305.4350.
[Khan:2013hva]
[8-288]
Leptonic commutators and clean T violation in neutrino oscillations, Zhi-zhong Xing, Phys. Rev. D88 (2013) 017301, arXiv:1304.7606.
[Xing:2013uxa]
[8-289]
Counting Electrons to Probe the Neutrino Mass Hierarchy, Jurgen Brunner, arXiv:1304.6230, 2013.
[Brunner:2013lua]
[8-290]
Exploring the three flavor effects with future superbeams using liquid argon detectors, Sanjib Kumar Agarwalla, Suprabh Prakash, S. Uma Sankar, JHEP 1403 (2014) 087, arXiv:1304.3251.
[Agarwalla:2013hma]
[8-291]
Correlated, Precision Measurements of $\theta_{23}$ and $\delta$ using only the Electron Neutrino Appearance Experiments, Hisakazu Minakata, Stephen J. Parke, Phys. Rev. D87 (2013) 113005, arXiv:1303.6178.
[Minakata:2013eoa]
[8-292]
Gain fractions of future neutrino oscillation facilities over T2K and NOvA, Mattias Blennow, Pilar Coloma, Andrea Donini, Enrique Fernandez-Martinez, JHEP 1307 (2013) 159, arXiv:1303.0003.
[Blennow:2013swa]
[8-293]
Octant sensitivity for large $\theta_{13}$ in atmospheric and long baseline neutrino experiments, Animesh Chatterjee, Pomita Ghoshal, Srubabati Goswami, Sushant K. Raut, JHEP 1306 (2013) 010, arXiv:1302.1370.
[Chatterjee:2013qus]
[8-294]
Long baseline neutrino experiments, mass hierarchy and delta(CP), C.R. Das, Joao Pulido, arXiv:1302.0779, 2013.
[Das:2013gq]
[8-295]
Optimizing Medium Baseline Reactor Neutrino Experiments, Emilio Ciuffoli, Jarah Evslin, Xinmin Zhang, Phys. Rev. D88 (2013) 033017, arXiv:1302.0624.
[Ciuffoli:2013ep]
[8-296]
Counting muons to probe the neutrino mass spectrum, Carolina Lujan-Peschard, Giulia Pagliaroli, Francesco Vissani, Eur.Phys.J. C73 (2013) 2439, arXiv:1301.4577.
[Lujan-Peschard:2013bha]
[8-297]
Probing the leptonic Dirac CP-violating phase in neutrino oscillation experiments, Tommy Ohlsson, He Zhang, Shun Zhou, Phys. Rev. D87 (2013) 053006, arXiv:1301.4333.
[Ohlsson:2013ip]
[8-298]
Resolving the octant of $\theta_{23}$ with T2K and NOvA, Sanjib Kumar Agarwalla, Suprabh Prakash, S. Uma Sankar, JHEP 1307 (2013) 131, arXiv:1301.2574.
[Agarwalla:2013ju]
[8-299]
Neutrino oscillations along the Earth to probe flavor parameters: a NeuWorld, D. Fargion, D. D Armiento, arXiv:1301.2569, 2013.
[Fargion:2013jr]
[8-300]
Determining the Neutrino Mass Hierarchy with INO, T2K, NOvA and Reactor Experiments, Anushree Ghosh, Tarak Thakore, Sandhya Choubey, JHEP 1304 (2013) 009, arXiv:1212.1305.
[Ghosh:2012px]
[8-301]
Medium Baseline Reactor Neutrino Experiments with 2 Identical Detectors, Emilio Ciuffoli et al., Phys.Lett. B736 (2014) 110-118, arXiv:1211.6818.
[Ciuffoli:2012bp]
[8-302]
Implication of a large $\theta_{13}$ for the Tokai to Kamioka and Korea setup, Fanny Dufour, arXiv:1211.3884, 2012.
[Dufour:2012zr]
[8-303]
Energy reconstruction effects in neutrino oscillation experiments and implications for the analysis, M. Martini, M. Ericson, G. Chanfray, Phys. Rev. D87 (2013) 013009, arXiv:1211.1523.
[Martini:2012uc]
[8-304]
Determination of mass hierarchy with medium baseline reactor neutrino experiments, Shao-Feng Ge, Kaoru Hagiwara, Naotoshi Okamura, Yoshitaro Takaesu, JHEP 1305 (2013) 131, arXiv:1210.8141.
[Ge:2012wj]
[8-305]
Systematic uncertainties in long-baseline neutrino oscillations for large $\theta_{13}$, Pilar Coloma, Patrick Huber, Joachim Kopp, Walter Winter, Phys. Rev. D87 (2013) 033004, arXiv:1209.5973.
[Coloma:2012ji]
[8-306]
CP violation and mass hierarchy at medium baselines in the large $\theta_{13}$ era, S. Dusini et al., Eur.Phys.J. C73 (2013) 2392, arXiv:1209.5010.
[Dusini:2012vc]
[8-307]
Constraints for non-standard interaction $\epsilon_{e \tau}V_e$ from $\nu_e$ appearance in MINOS and T2K, Joao A. B. Coelho, Tomas Kafka, W. Anthony Mann, Jacob Schneps, Ozgur Altinok, Phys. Rev. D86 (2012) 113015, arXiv:1209.3757.
[Coelho:2012bp]
[8-308]
Global fit to three neutrino mixing: critical look at present precision, M.C. Gonzalez-Garcia, Michele Maltoni, Jordi Salvado, Thomas Schwetz, JHEP 12 (2012) 123, arXiv:1209.3023.
[Gonzalez-Garcia:2012hef]
[8-309]
Physics potential of neutrino oscillation experiment with a far detector in Oki Island along the T2K baseline, Kaoru Hagiwara, Takayuki Kiwanami, Naotoshi Okamura, Ken-ichi Senda, JHEP 1306 (2013) 036, arXiv:1209.2763.
[Hagiwara:2012mg]
[8-310]
Resolving Octant Degeneracy at FNAL-LBNE using Daya Bay Reactor Experiment, Kalpana Bora, Debajyoti Dutta, J. Phys. Conf. Ser. 481 (2014) 012019, arXiv:1209.1870.
[Bora:2012vtr]
[8-311]
Discovery limit of CP violating Phase $delta$ in oscillation experiment using neutrino beam from electron capture, Zini Rahman, Rathin Adhikari, arXiv:1209.0215, 2012.
[Rahman:2012qx]
[8-312]
The High Energy Neutrino Nuisance at a Medium Baseline Reactor Experiment, Emilio Ciuffoli, Jarah Evslin, Xinmin Zhang, Phys.Lett. B728 (2014) 634-638, arXiv:1208.4800.
[Ciuffoli:2012pe]
[8-313]
Potential of optimized NOvA for large $\theta_{13}$ and combined performance with a LArTPC and T2K, Sanjib Kumar Agarwalla, Suprabh Prakash, Sushant K. Raut, S. Uma Sankar, JHEP 12 (2012) 075, arXiv:1208.3644.
[Agarwalla:2012bv]
[8-314]
The Neutrino Mass Hierarchy at Reactor Experiments now that $\theta_{13}$ is Large, Emilio Ciuffoli, Jarah Evslin, Xinmin Zhang, JHEP 1303 (2013) 016, arXiv:1208.1991.
[Ciuffoli:2012iz]
[8-315]
Mass Hierarchy Resolution in Reactor Anti-neutrino Experiments: Parameter Degeneracies and Detector Energy Response, X. Qian et al., Phys. Rev. D87 (2013) 033005, arXiv:1208.1551.
[Qian:2012xh]
[8-316]
Optimization of neutrino beams for underground sites in Europe, A. Longhin, arXiv:1206.4294, 2012.
[Longhin:2012ae]
[8-317]
A comparative study of long-baseline superbeams within LAGUNA for large $\theta_{13}$, Pilar Coloma, Tracey Li, Silvia Pascoli, arXiv:1206.4038, 2012.
[Coloma:2012ut]
[8-318]
Physics reach of CERN-based SuperBeam neutrino oscillation experiments, Pilar Coloma, Enrique Fernandez-Martinez, Luis Labarga, JHEP 11 (2012) 069, arXiv:1206.0475.
[Coloma:2012ma]
[8-319]
Comment on Phys. Rev. Lett. 108, 191802 (2012): 'Observation of Reactor Electron Antineutrino Disappearance in the RENO Experiment', Thierry Lasserre, Guillaume Mention, Michel Cribier, Antoine Collin, Vincent Durand et al., arXiv:1205.5626, 2012.
[Lasserre:2012ax]
[8-320]
The Reactor Anomaly after Daya Bay and RENO, Emilio Ciuffoli, Jarah Evslin, Hong Li, JHEP 12 (2012) 110, arXiv:1205.5499.
[Ciuffoli:2012yd]
[8-321]
Global analysis of neutrino masses, mixings and phases: entering the era of leptonic CP violation searches, G.L. Fogli et al., Phys. Rev. D86 (2012) 013012, arXiv:1205.5254.
[Fogli:2012ua]
[8-322]
Global status of neutrino oscillation parameters after Neutrino-2012, D.V. Forero, M. Tortola, J.W.F. Valle, Phys. Rev. D86 (2012) 073012, arXiv:1205.4018.
[Forero:2012faj]
[8-323]
Comment on 'Observation of electron-antineutrino disappearance at Daya Bay', V.D. Rusov, V.A. Tarasov, S.A. Chernegenko, V.P. Smolyar, arXiv:1204.5974, 2012.
[Rusov:2012nq]
[8-324]
Probing the Neutrino Mass Hierarchy with Super-Kamiokande, Sanjib Kumar Agarwalla, Pilar Hernandez, JHEP 10 (2012) 086, arXiv:1204.4217.
[Agarwalla:2012zu]
[8-325]
Combining Neutrino Oscillation Experiments with the Feldman-Cousins Method, A. V. Waldron, M. D. Haigh, A. Weber, New J. Phys. 14 (2012) 063037, arXiv:1204.3450.
[Waldron:2012cn]
[8-326]
Non-standard interactions and bimagic baseline for neutrino oscillations, Rathin Adhikari, Arnab Dasgupta, Zini Rahman, arXiv:1204.1750, 2012.
[Adhikari:2012wn]
[8-327]
Precision on leptonic mixing parameters at future neutrino oscillation experiments, Pilar Coloma, Andrea Donini, Enrique Fernandez-Martinez, Pilar Hernandez, JHEP 06 (2012) 073, arXiv:1203.5651.
[Coloma:2012wq]
[8-328]
Neutrino Oscillations in the Precision Era, M. Bishai et al., arXiv:1203.4090, 2012.
[Bishai:2012ss]
[8-329]
Identifying the Neutrino mass Ordering with INO and NOvA, Mattias Blennow, Thomas Schwetz, JHEP 08 (2012) 058, arXiv:1203.3388.
[Blennow:2012gj]
[8-330]
Revisiting the T2K data using different models for the neutrino-nucleus cross sections, D. Meloni, M. Martini, Phys. Lett. B716 (2012) 186-192, arXiv:1203.3335.
[Meloni:2012fq]
[8-331]
Implications of the Daya Bay observation of $\theta_{13}$ on the leptonic flavor mixing structure and CP violation, Zhi-zhong Xing, Chin. Phys. C36 (2012) 281-297, arXiv:1203.1672.
[Luo:2012fm]
[8-332]
Neutrino energy reconstruction problems and neutrino oscillations, M. Martini, M. Ericson, G. Chanfray, Phys. Rev. D85 (2012) 093012, arXiv:1202.4745.
[Martini:2012fa]
[8-333]
Getting the best out of T2K and NOvA, Suprabh Prakash, Sushant K. Raut, S. Uma Sankar, Phys. Rev. D86 (2012) 033012, arXiv:1201.6485.
[Prakash:2012az]
[8-334]
Relating large $U_{e3}$ to the ratio of neutrino mass-squared differences, Werner Rodejohann, Morimitsu Tanimoto, Atsushi Watanabe, Phys. Lett. B710 (2012) 636-640, arXiv:1201.4936.
[Rodejohann:2012jz]
[8-335]
Non-standard interaction in neutrino oscillations and recent T2K experiment, Rathin Adhikari, Sabyasachi Chakraborty, Arnab Dasgupta, Sourov Roy, Phys. Rev. D86 (2012) 073010, arXiv:1201.3047.
[Adhikari:2012vc]
[8-336]
Real and complex random neutrino mass matrices and theta13, Janusz Gluza, Robert Szafron, Phys. Rev. D85 (2012) 047701, arXiv:1111.7278.
[Gluza:2011nm]
[8-337]
Parameter degeneracies in FNAL-Homestake LBNE setup, Kalpana Bora, J. Assam Sci. Soc. 52 (2011) 84, arXiv:1111.7085.
[Bora:2011ka]
[8-338]
First Double-Chooz Results and the Reactor Antineutrino Anomaly, Carlo Giunti, Marco Laveder, Phys. Rev. D85 (2012) 031301, arXiv:1111.5211.
[Giunti:2011vc]
[8-339]
Proposed TRV Measurement via L-nL Neutrino Oscillations, Leonard S. Kisslinger, Ernest M. Henley, Mikkel B. Johnson, arXiv:1111.4396, 2011.
[Kisslinger:2011gn]
[8-340]
Implications of sterile neutrinos for medium/long-baseline neutrino experiments and the determination of $\vartheta_{13}$, Bhubanjyoti Bhattacharya, Arun M. Thalapillil, Carlos E. M. Wagner, Phys. Rev. D85 (2012) 073004, arXiv:1111.4225.
[Bhattacharya:2011ee]
[8-341]
Combining Accelerator and Reactor Measurements of $\vartheta_{13}$; The First Result, P. A. N. Machado, H. Minakata, H. Nunokawa, R. Zukanovich Funchal, JHEP 05 (2012) 023, arXiv:1111.3330.
[Machado:2011ar]
[8-342]
Global Neutrino Data Analysis and the Quest to Pin Down $\sin\vartheta_{13}$ in Different Mixing Matrix Parametrizations, Melin Huang, S. D. Reitzner, Wei-Chun Tsai, Huitzu Tu, arXiv:1111.3175, 2011.
[Huang:2011yi]
[8-343]
The Kobayashi-Maskawa Parametrization of Lepton Flavor Mixing and Its Application to Neutrino Oscillations in Matter, Ye-Ling Zhou, Phys. Rev. D84 (2011) 113012, arXiv:1110.5023.
[Zhou:2011xm]
[8-344]
Optimization of neutrino oscillation facilities for large $\vartheta_{13}$, Pilar Coloma, Enrique Fernandez-Martinez, JHEP 04 (2012) 089, arXiv:1110.4583.
[Coloma:2011pg]
[8-345]
An incremental approach to unravel the neutrino mass hierarchy and CP violation with a long-baseline Superbeam for large $\vartheta_{13}$, Sanjib Kumar Agarwalla, Tracey Li, Andre Rubbia, JHEP 05 (2012) 154, arXiv:1109.6526.
[Agarwalla:2011hh]
[8-346]
The earth matter effects in neutrino oscillation experiments from Tokai to Kamioka and Korea, Kaoru Hagiwara, Naotoshi Okamura, Ken-ichi Senda, JHEP 09 (2011) 082, arXiv:1107.5857.
[Hagiwara:2011kw]
[8-347]
Learning from tau appearance, P. Migliozzi, F. Terranova, New J. Phys. 13 (2011) 083016, arXiv:1107.3018.
[Migliozzi:2011bj]
[8-348]
Evidence of $\vartheta_{13} > 0$ from global neutrino data analysis, G. L. Fogli, E. Lisi, A. Marrone, A. Palazzo, A. M. Rotunno, Phys. Rev. D84 (2011) 053007, arXiv:1106.6028.
[Fogli:2011qn]
[8-349]
Lorentz noninvariant oscillations of massless neutrinos are excluded, Vernon Barger, Jiajun Liao, Danny Marfatia, Kerry Whisnant, Phys. Rev. D84 (2011) 056014, arXiv:1106.6023.
[Barger:2011qj]
[8-350]
MINOS Anomaly as A Signal of Lorentz Violation, Chun Liu, Jin-tao Tian, Zhen-hua Zhao, Physics Letters B702 (2011) 154-157, arXiv:1106.5927.
[Liu:2011nwa]
[8-351]
Possible, alternative explanations of the T2K observation of the $\nu_e$ appearance from an initial $\nu_\mu$, D.Gibin, A Guglielmi, F. Pietropaolo, C. Rubbia, P. Sala, arXiv:1106.4417, 2011.
[Gibin:2011hd]
[8-352]
Re-evaluation of neutrino mixing pattern according to latest T2K result, Ya-juan Zheng, Bo-Qiang Ma, Eur. Phys. J. Plus 127 (2012) 7, arXiv:1106.4040.
[Zheng:2011uz]
[8-353]
A new design for the CERN-Frejus neutrino Super Beam, A. Longhin, Eur. Phys. J. C71 (2011) 1745, arXiv:1106.1096.
[Longhin:2011hn]
[8-354]
Rephasing invariance and the neutrino mu-tau symmetry, S. H. Chiu, T. K. Kuo, Phys. Rev. D84 (2011) 013001, arXiv:1103.5801.
[Chiu:2011rj]
[8-355]
Perturbation Theory of Neutrino Oscillation for Long-Baseline Experiments, Katsuhiro Asano, Hisakazu Minakata, JHEP 06 (2011) 022, arXiv:1103.4387.
[Asano:2011nj]
[8-356]
Testing matter effects in propagation of atmospheric and long-baseline neutrinos, M.C. Gonzalez-Garcia, Michele Maltoni, Jordi Salvado, JHEP 05 (2011) 075, arXiv:1103.4365.
[Gonzalez-Garcia:2011vlg]
[8-357]
Long-Range Lepton Flavor Interactions and Neutrino Oscillations, Hooman Davoudiasl, Hye-Sung Lee, William J. Marciano, Phys. Rev. D84 (2011) 013009, arXiv:1102.5352.
[Davoudiasl:2011sz]
[8-358]
Testing for Large Extra Dimensions with Neutrino Oscillations, P. A. N. Machado, H. Nunokawa, R. Zukanovich Funchal, Phys. Rev. D84 (2011) 013003, arXiv:1101.0003.
[Machado:2011jt]
[8-359]
A simple Lorentz-violating texture for neutrino mixing, Jorge S. Diaz, Alan Kostelecky, Phys. Lett. B700 (2011) 25-28, arXiv:1012.5985.
[Diaz:2010ft]
[8-360]
MINOS and Leptogenesis, Chiu Man Ho, Phys.Lett. B702 (2011) 398-401, arXiv:1012.1053.
[Ho:2010jv]
[8-361]
Large Short-Baseline $\bar\nu_{\mu}$ Disappearance, Carlo Giunti, Marco Laveder, Phys. Rev. D83 (2011) 053006, arXiv:1012.0267.
[Giunti:2010uj]
[8-362]
Neutrino oscillations trigger a minimal length, Marcus Bleicher, Piero Nicolini, Martin Sprenger, Class. Quant. Grav. 28 (2011) 235019, arXiv:1011.5225.
[Sprenger:2010dg]
[8-363]
Physics Potential of a 2540 Km Baseline Superbeam Experiment, Aniket Joglekar, Suprabh Prakash, Sushant K. Raut, S. Uma Sankar, Mod. Phys. Lett. A26 (2011) 2051-2063, arXiv:1011.1146.
[Joglekar:2010iu]
[8-364]
Two experiments for the price of one? - The role of the second oscillation maximum in long baseline neutrino experiments, Patrick Huber, Joachim Kopp, JHEP 03 (2011) 013, arXiv:1010.3706.
[Huber:2010dx]
[8-365]
Importance of nuclear effects in the measurement of neutrino oscillation parameters, Enrique Fernandez-Martinez, Davide Meloni, Phys. Lett. B697 (2011) 477-481, arXiv:1010.2329.
[Fernandez-Martinez:2010erl]
[8-366]
Probing CP violation in the neutrino sector with magic baseline experiments, Rukmani Mohanta, Daughty John, Mod. Phys. Lett. A26 (2011) 205-213, arXiv:1010.0288.
[Mohanta:2010mx]
[8-367]
Ghost condensation and CPT violation in neutrino sector, Shinji Mukohyama, Seong Chan Park, Phys. Lett. B696 (2011) 505-508, arXiv:1009.1251.
[Mukohyama:2010wq]
[8-368]
2540 km: Bimagic baseline for neutrino oscillation parameters, Amol Dighe, Srubabati Goswami, Shamayita Ray, Phys. Rev. Lett. 105 (2010) 261802, arXiv:1009.1093.
[Dighe:2010js]
[8-369]
Interpretation of MINOS data in terms of non-standard neutrino interactions, Joachim Kopp, Pedro A. N. Machado, Stephen J. Parke, Phys. Rev. D82 (2010) 113002, arXiv:1009.0014.
[Kopp:2010qt]
[8-370]
Discovering New Light States at Neutrino Experiments, Rouven Essig, Roni Harnik, Jared Kaplan, Natalia Toro, Phys. Rev. D82 (2010) 113008, arXiv:1008.0636.
[Essig:2010gu]
[8-371]
Mutual consistency of the MINOS and MiniBooNE Antineutrino Results and Possible CPT Violation, Debajyoti Choudhury, Anindya Datta, Anirban Kundu, arXiv:1007.2923, 2010.
[Choudhury:2010vj]
[8-372]
Gauged L_mu - L_tau and different Muon Neutrino and Anti- Neutrino Oscillations: MINOS and beyond, Julian Heeck, Werner Rodejohann, J. Phys. G38 (2011) 085005, arXiv:1007.2655.
[Heeck:2010pg]
[8-373]
Apparent multiple Delta m^2_32 in muon anti-neutrino and muon neutrino survival oscillations from non-standard interaction matter effect, W. Anthony Mann, Daniel Cherdack, Wojciech Musial, Tomas Kafka, Phys. Rev. D82 (2010) 113010, arXiv:1006.5720.
[Mann:2010jz]
[8-374]
Exploring new features of neutrino oscillations with very low energy monoenergetic neutrinos, J.D. Vergados, Yu.N. Novikov, Nucl. Phys. B839 (2010) 1-20, arXiv:1006.3862.
[Vergados:2010vp]
[8-375]
The impact of hierarchy upon the values of neutrino mixing parameters, J. Escamilla-Roa, D. C. Latimer, D. J. Ernst, Phys. Rev. C82 (2010) 028501, arXiv:1005.4651.
[Escamilla-Roa:2010kee]
[8-376]
A new approach to anti-neutrino running in long baseline neutrino oscillation experiments, Sanjib K. Agarwalla, Patrick Huber, Jonathan M. Link, Debabrata Mohapatra, JHEP 04 (2011) 099, arXiv:1005.4055.
[Agarwalla:2010nn]
[8-377]
New physics searches at near detectors of neutrino oscillation experiments, Stefan Antusch, Mattias Blennow, Enrique Fernandez-Martinez, Toshihiko Ota, JHEP 06 (2010) 068, arXiv:1005.0756.
[Antusch:2010fe]
[8-378]
Magic baseline and magic energy in neutrino oscillation with non-standard interactions, Zini Rahman, Rathin Adhikari, arXiv:1004.0984, 2010.
[Rahman:2010ez]
[8-379]
Sensitivity of T2KK to the non-standard interaction in propagation, Haruna Oki, Osamu Yasuda, Phys. Rev. D82 (2010) 073009, arXiv:1003.5554.
[Oki:2010uc]
[8-380]
Apparent CPT Violation in Neutrino Oscillation Experiments, Netta Engelhardt, Ann E. Nelson, Jonathan R. Walsh, Phys. Rev. D81 (2010) 113001, arXiv:1002.4452.
[Engelhardt:2010dx]
[8-381]
Further study of neutrino oscillation with two detectors in Kamioka and Korea, F.Dufour, T.Kajita, E.Kearns, K.Okumura, Phys. Rev. D81 (2010) 093001, arXiv:1001.5165.
[Dufour:2010vr]
[8-382]
Updated global fit to three neutrino mixing: status of the hints of $\theta_{13}$ > 0, M.C. Gonzalez-Garcia, Michele Maltoni, Jordi Salvado, JHEP 04 (2010) 056, arXiv:1001.4524.
[Gonzalez-Garcia:2010zke]
[8-383]
Parameter Degeneracy in Neutrino Oscillation - Solution Network and Structural Overview -, Hisakazu Minakata, Shoichi Uchinami, JHEP 04 (2010) 111, arXiv:1001.4219.
[Minakata:2010zn]
[8-384]
Determining the Sign of $\Delta_{31}$ by Future Long Baseline and Reactor Experiments, Bipin Singh Koranga, S. Mahapatra, S. Uma Sankar, Fizika B18 (2009) 151-164, arXiv:0912.5006.
[Korang:2009eq]
[8-385]
Simulations of neutrino oscillations with a high-energy beta beam from CERN to LENA at Pyhasalmi Mine, Juha Peltoniemi, arXiv:0911.5234, 2009.
[Peltoniemi:2009zk]
[8-386]
Simulations of neutrino oscillations for a wide band beam from CERN to LENA, Juha Peltoniemi, arXiv:0911.4876, 2009.
[Peltoniemi:2009hv]
[8-387]
Exploring neutrino parameters with a beta-beam experiment from FNAL to DUSEL, Sanjib Kumar Agarwalla, Patrick Huber, Phys. Lett. B693 (2010) 114-121, arXiv:0909.2257.
[Agarwalla:2009ki]
[8-388]
Magical properties of 2540 Km baseline Superbeam Experiment, Sushant K. Raut, Ravi Shanker Singh, S. Uma Sankar, Phys. Lett. B696 (2011) 227-231, arXiv:0908.3741.
[Raut:2009jj]
[8-389]
First hint for CP violation in neutrino oscillations from upcoming superbeam and reactor experiments, Patrick Huber, Manfred Lindner, Thomas Schwetz, Walter Winter, JHEP 11 (2009) 044, arXiv:0907.1896.
[Huber:2009cw]
[8-390]
The GENIE Neutrino Monte Carlo Generator, C. Andreopoulos et al., Nucl. Instrum. Meth. A614 (2010) 87-104, arXiv:0905.2517.
[Andreopoulos:2009rq]
[8-391]
High Energy Neutrino Physics with Liquid Scintillation Detectors, John G. Learned, arXiv:0902.4009, 2009.
[Learned:2009rv]
[8-392]
The physics impact of proton track identification in future megaton-scale water Cherenkov detectors, M. Fechner, C.W. Walter, JHEP 11 (2009) 040, arXiv:0901.1950.
[Fechner:2009mq]
[8-393]
Re-evaluation of the T2KK physics potential with simulations including backgrounds, Kaoru Hagiwara, Naotoshi Okamura, JHEP 07 (2009) 031, arXiv:0901.1517.
[Hagiwara:2009bb]
[8-394]
Prospects of neutrino oscillation measurements in the detection of reactor antineutrinos with a medium-baseline experiment, Mikhail Batygov et al., arXiv:0810.2580, 2008.
[Batygov:2008ku]
[8-395]
Three-flavour neutrino oscillation update, Thomas Schwetz, Mariam Tortola, Jose W. F. Valle, New J. Phys. 10 (2008) 113011, arXiv:0808.2016.
[Schwetz:2008er]
[8-396]
Observables sensitive to absolute neutrino masses (Addendum), G. L. Fogli et al., Phys. Rev. D78 (2008) 033010, arXiv:0805.2517.
[Fogli:2008ig]
[8-397]
Non-standard interactions using the OPERA experiment, Mattias Blennow, Davide Meloni, Tommy Ohlsson, Francesco Terranova, Mattias Westerberg, Eur. Phys. J. C56 (2008) 529-536, arXiv:0804.2744.
[Blennow:2008ym]
[8-398]
Neutrino oscillograms of the Earth: effects of 1-2 mixing and CP-violation, Evgeny Kh. Akhmedov, Michele Maltoni, Alexei Yu. Smirnov, JHEP 06 (2008) 072, arXiv:0804.1466.
[Akhmedov:2008qt]
[8-399]
Can OPERA help in constraining neutrino non-standard interactions?, Andreu Esteban-Pretel, Patrick Huber, Jose W. F. Valle, Phys. Lett. B668 (2008) 197-201, arXiv:0803.1790.
[Esteban-Pretel:2008ztv]
[8-400]
Avoiding the uncertainty from correlation between $|\Delta m_{31}^2|$ and CP phase delta in $\nu_\mu - > \nu_\mu$ long baseline experiments, Keiichi Kimura, Akira Takamura, Tadashi Yoshikawa, Mod. Phys. Lett. A23 (2008) 2997-3003, arXiv:0803.0787.
[Kimura:2008nq]
[8-401]
Status of Oscillation plus Decay of Atmospheric and Long-Baseline Neutrinos, M.C. Gonzalez-Garcia, M. Maltoni, Phys. Lett. B663 (2008) 405-409, arXiv:0802.3699.
[Gonzalez-Garcia:2008mgl]
[8-402]
Solving the octant degeneracy with the Silver channel, D. Meloni, Phys. Lett. B664 (2008) 279-284, arXiv:0802.0086.
[Meloni:2008bd]
[8-403]
Quantum-Gravity Decoherence Effects in Neutrino Oscillations: Expected Constraints From CNGS and J-PARC, Nick E. Mavromatos, Anselmo Meregaglia, Andre Rubbia, Alexander Sakharov, Sarben Sarkar, Phys. Rev. D77 (2008) 053014, arXiv:0801.0872.
[Mavromatos:2007hv]
[8-404]
Probing Nonstandard Neutrino Physics by Two Identical Detectors with Different Baselines, Nei Cipriano Ribeiro et al., Phys. Rev. D77 (2008) 073007, arXiv:0712.4314.
[Ribeiro:2007jq]
[8-405]
Investigating Possible Neutrino Decay in Long Baseline Experiment Using ICAL as Far end Detector, Debasish Majumdar, Ambar Ghosal, arXiv:0712.0697, 2007.
[Majumdar:2007kn]
[8-406]
Effect of Leptonic CP Phase in $\nu_\mu \to \nu_\mu$ Oscillations, Keiichi Kimura, Akira Takamura, Tadashi Yoshikawa, JHEP 03 (2008) 016, arXiv:0711.1567.
[Kimura:2007mu]
[8-407]
Combining CPT-conjugate Neutrino channels at Fermilab, Andreas Jansson, Olga Mena, Stephen Parke, Niki Saoulidou, Phys. Rev. D78 (2008) 053002, arXiv:0711.1075.
[Jansson:2007nm]
[8-408]
On detecting CP violation in a single neutrino oscillation channel at very long baselines, D. C. Latimer, J. Escamilla, D. J. Ernst, Phys. Rev. C76 (2007) 055502, arXiv:0709.1827.
[Latimer:2007hp]
[8-409]
Signatures of heavy sterile neutrinos at long baseline experiments, Amol Dighe, Shamayita Ray, Phys. Rev. D76 (2007) 113001, arXiv:0709.0383.
[Dighe:2007uf]
[8-410]
Constraints on New Physics from Long Baseline Neutrino Oscillation Experiments, Minako Honda, Yee Kao, Naotoshi Okamura, Alexey Pronin, Tatsu Takeuchi, arXiv:0707.4545, 2007.
[Honda:2007wv]
[8-411]
Challenging Lorentz noninvariant neutrino oscillations without neutrino masses, V. Barger, D. Marfatia, K. Whisnant, Phys. Lett. B653 (2007) 267-277, arXiv:0706.1085.
[Barger:2007dc]
[8-412]
A unified analysis of the reactor neutrino program towards the measurement of the $\theta_{13}$ mixing angle, Guillaume Mention, Thierry Lasserre, Dario Motta, Journal of PHYSICS (2008) Conference Series 110, arXiv:0704.0498.
[Mention:2007um]
[8-413]
3+1 sterile neutrinos at the CNGS, A. Donini et al., JHEP 12 (2007) 013, arXiv:0704.0388.
[Donini:2007yf]
[8-414]
Determination of the neutrino mass hierarchy in the regime of small matter effect, Thomas Schwetz, JHEP 05 (2007) 093, arXiv:hep-ph/0703279.
[Schwetz:2007py]
[8-415]
Which long-baseline neutrino experiments?, V. Barger, P. Huber, D. Marfatia, W. Winter, Phys. Rev. D76 (2007) 053005, arXiv:hep-ph/0703029.
[Barger:2007jq]
[8-416]
Effects of non-standard interactions in the MINOS experiment, Mattias Blennow, Tommy Ohlsson, Julian Skrotzki, Phys. Lett. B660 (2008) 522-528, arXiv:hep-ph/0702059.
[Blennow:2007pu]
[8-417]
New features in the simulation of neutrino oscillation experiments with GLoBES 3.0, Patrick Huber et al., Comput. Phys. Commun. 177 (2007) 432-438, arXiv:hep-ph/0701187.
[Huber:2007ji]
[8-418]
1-3 leptonic mixing and the neutrino oscillograms of the Earth, Evgeny Kh. Akhmedov, Michele Maltoni, Alexei Yu. Smirnov, JHEP 05 (2007) 077, arXiv:hep-ph/0612285.
[Akhmedov:2006hb]
[8-419]
Neutrino Beams From Electron Capture at High Gamma, Mark Rolinec, Joe Sato, JHEP 08 (2007) 079, arXiv:hep-ph/0612148.
[Rolinec:2006xr]
[8-420]
Neutrino parameters from matter effects in $P_{ee}$ at long baselines, Sanjib Kumar Agarwalla, Sandhya Choubey, Srubabati Goswami, Amitava Raychaudhuri, Phys. Rev. D75 (2007) 097302, arXiv:hep-ph/0611233.
[Agarwalla:2006gz]
[8-421]
Solving the degeneracy of the lepton-flavor mixing angle theta_atm by the T2KK two detector neutrino oscillation experiment, Kaoru Hagiwara, Naotoshi Okamura, JHEP 01 (2008) 022, arXiv:hep-ph/0611058.
[Hagiwara:2006nn]
[8-422]
Neutrino mass hierarchy and $\theta_{13}$ with a magic baseline beta-beam experiment, Sanjib Kumar Agarwalla, Sandhya Choubey, Amitava Raychaudhuri, Nucl. Phys. B771 (2007) 1-27, arXiv:hep-ph/0610333.
[Agarwalla:2006vf]
[8-423]
Upgraded experiments with super neutrino beams, V. Barger, Patrick Huber, Danny Marfatia, Walter Winter, Phys. Rev. D76 (2007) 031301, arXiv:hep-ph/0610301.
[Barger:2006kp]
[8-424]
Neutrino oscillations: what is magic about the 'magic' baseline?, A. Yu. Smirnov, arXiv:hep-ph/0610198, 2006.
[Smirnov:2006sm]
[8-425]
Resolving Eight-Fold Neutrino Parameter Degeneracy by Two Identical Detectors with Different Baselines, Takaaki Kajita, Hisakazu Minakata, Shoei Nakayama, Hiroshi Nunokawa, Phys. Rev. D75 (2007) 013006, arXiv:hep-ph/0609286.
[Kajita:2006bt]
[8-426]
About estimations of an one-photon background in neutrino oscillation experiments at low neutrino energies, V. P. Efrosinin, Phys.Atom.Nucl. 70 (2007) 1926, arXiv:hep-ph/0609169.
[Efrosinin:2006zp]
[8-427]
NOvA and T2K: The race for the neutrino mass hierarchy, Olga Mena, Hiroshi Nunokawa, Stephen Parke, Phys. Rev. D75 (2007) 033002, arXiv:hep-ph/0609011.
[Mena:2006uw]
[8-428]
Observables sensitive to absolute neutrino masses: A reappraisal after WMAP-3y and first MINOS results, G.L. Fogli et al., Phys. Rev. D75 (2007) 053001, arXiv:hep-ph/0608060.
[Fogli:2006yq]
[8-429]
Can R-parity violating supersymmetry be seen in long baseline beta-beam experiments?, Rathin Adhikari, Sanjib Kumar Agarwalla, Amitava Raychaudhuri, Phys. Lett. B642 (2006) 111-118, arXiv:hep-ph/0608034.
[Adhikari:2006uj]
[8-430]
Determining Neutrino Mass Hierarchy by Precision Measurements in Electron and Muon Neutrino Disappearance Experiments, H. Minakata, H. Nunokawa, S.J. Parke, R. Zukanovich Funchal, Phys. Rev. D74 (2006) 053008, arXiv:hep-ph/0607284.
[Minakata:2006gq]
[8-431]
Physics potential of T2KK: An extension of the T2K neutrino oscillation experiment with a far detector in Korea, Kaoru Hagiwara, Naotoshi Okamura, Ken-ichi Senda, Phys. Rev. D76 (2007) 093002, arXiv:hep-ph/0607255.
[Hagiwara:2006vn]
[8-432]
Precision physics with a wide band super neutrino beam, V. Barger et al., Phys. Rev. D74 (2006) 073004, arXiv:hep-ph/0607177.
[Barger:2006vy]
[8-433]
Measurement of Leptonic CP Phase in $\nu_\mu \to \nu_\mu$ Oscillation, Keiichi Kimura, Akira Takamura, Tadashi Yoshikawa, arXiv:hep-ph/0605308, 2006.
[Kimura:2006hy]
[8-434]
Electromagnetic structure functions and neutrino nucleon scattering, M. H. Reno, Phys. Rev. D74 (2006) 033001, arXiv:hep-ph/0605295.
[Reno:2006hj]
[8-435]
Matter effect on neutrino oscillations from the violation of universality in neutrino neutral current interactions, Minako Honda, Naotoshi Okamura, Tatsu Takeuchi, arXiv:hep-ph/0603268, 2006.
[Honda:2006gv]
[8-436]
Physics potential of the CERN-MEMPHYS neutrino oscillation project, J.E. Campagne, M. Maltoni, M. Mezzetto, T. Schwetz, JHEP 04 (2007) 003, arXiv:hep-ph/0603172.
[Campagne:2006yx]
[8-437]
Maximal CP Phase Effect and $\theta_{13}$ Screening in Long Baseline Neutrino Experiments, Keiichi Kimura, Akira Takamura, Tadashi Yoshikawa, Phys.Lett. B640 (2006) 32-36, arXiv:hep-ph/0603141.
[Kimura:2006qx]
[8-438]
A Simple Parameterization of Matter Effects on Neutrino Oscillations, Minako Honda, Yee Kao, Naotoshi Okamura, Tatsu Takeuchi, arXiv:hep-ph/0602115, 2006.
[Honda:2006hp]
[8-439]
Resolving $\theta_{23}$ Degeneracy by Accelerator and Reactor Neutrino Oscillation Experiments, Katsuki Hiraide et al., Phys. Rev. D73 (2006) 093008, arXiv:hep-ph/0601258.
[Hiraide:2006vh]
[8-440]
Possible new source of T and CP violation in neutrino oscillations, Frans R. Klinkhamer, Phys. Rev. D73 (2006) 057301, arXiv:hep-ph/0601116.
[Klinkhamer:2006ae]
[8-441]
Detecting dark energy in long baseline neutrino oscillations, Pei-Hong Gu, Xiao-June Bi, Bo Feng, Bing-Lin Young, Xinmin Zhang, Chin. Phys. C32 (2008) 530-535, arXiv:hep-ph/0512076.
[Gu:2005pq]
[8-442]
$\nu_\mu$ disappearance at the SPL, T2K-I, NOνA and the Neutrino Factory, A. Donini, E. Fernandez-Martinez, D. Meloni, S. Rigolin, Nucl. Phys. B743 (2006) 41, arXiv:hep-ph/0512038.
[Donini:2005db]
[8-443]
Determining the Neutrino Mass Hierarchy and CP Violation in NOvA with a Second Off-Axis Detector, Olga Mena, Sergio Palomares-Ruiz, Silvia Pascoli, Phys. Rev. D73 (2006) 073007, arXiv:hep-ph/0510182.
[Mena:2005ri]
[8-444]
Leptonic CP Violation Search and the Ambiguity of $\Delta m^2_{31}$, Masafumi Koike, Naotoshi Okamura, Masako Saito, Tatsu Takeuchi, Phys. Rev. D73 (2006) 053010, arXiv:hep-ph/0510082.
[Koike:2005dk]
[8-445]
New Matter Effects and BBN Constraints for Mass Varying Neutrinos, Neal Weiner, Kathryn Zurek, Phys. Rev. D74 (2006) 023517, arXiv:hep-ph/0509201.
[Weiner:2005ac]
[8-446]
Correlations between $\theta_{13}$ and $\theta_{23}$ in a very long baseline neutrino oscillation experiment, D. C. Latimer, D. J. Ernst, Phys. Rev. C72 (2005) 045502, arXiv:nucl-th/0507032.
[Latimer:2005nc]
[8-447]
A test of tau neutrino interactions with atmospheric neutrinos and K2K, Alexander Friedland, Cecilia Lunardini, Phys. Rev. D72 (2005) 053009, arXiv:hep-ph/0506143.
[Friedland:2005vy]
[8-448]
Large Non-perturbative Effects of Small $\Delta m^2_{21}/\Delta m^2_{31}$ and $\sin \theta_{13}$ on Neutrino Oscillation and CP Violation in Matter, Akita Takamura, Keiichi Kimura, JHEP 0601 (2006) 053, arXiv:hep-ph/0506112.
[Takamura:2005df]
[8-449]
The impact of solar and atmospheric parameter uncertainties on the measurement of \theta_{13} and \delta, A. Donini, D. Meloni, S. Rigolin, Eur. Phys. J. C45 (2006) 73, arXiv:hep-ph/0506100.
[Donini:2005rn]
[8-450]
Physics Potential of the Fermilab NuMI beamline, Olga Mena, Stephen Parke, Phys. Rev. D72 (2005) 053003, arXiv:hep-ph/0505202.
[Mena:2005sa]
[8-451]
The matter effects to neutrino oscillations $\nu_\mu \to \nu_e, \nu_\mu$ at very long baselines and the neutrino mixing angles $\theta_13$ and $\theta_23$, Guey-Lin Lin, Yoshiaki Umeda, arXiv:hep-ph/0505009, 2005.
[Lin:2005pi]
[8-452]
Neutrino Data and Neutrino-Antineutrino Transition, E.N. Alexeyev, L.V. Volkova, arXiv:hep-ph/0504282, 2005.
[Alexeyev:2005jt]
[8-453]
Solving the neutrino parameter degeneracy by measuring the T2K off-axis beam in Korea, Kaoru Hagiwara, Naotoshi Okamura, Ken-ichi Senda, Phys. Lett. B637 (2006) 266-273, arXiv:hep-ph/0504061.
[Hagiwara:2005pe]
[8-454]
Resolving Neutrino Mass Hierarchy and CP Degeneracy by Two Identical Detectors with Different Baselines, Masaki Ishitsuka, Takaaki Kajita, Hisakazu Minakata, Hiroshi Nunokawa, Phys. Rev. D72 (2005) 033003, arXiv:hep-ph/0504026.
[Ishitsuka:2005qi]
[8-455]
Super-NOvA: a long-baseline neutrino experiment with two off-axis detectors, Olga Mena Requejo, Sergio Palomares-Ruiz, Silvia Pascoli, Phys. Rev. D72 (2005) 053002, arXiv:hep-ph/0504015.
[MenaRequejo:2005hn]
[8-456]
Reconstruction of the Neutrino Mixing Matrix and Leptonic Unitarity Triangles from Long-baseline Neutrino Oscillations, Zhi-zhong Xing, He Zhang, Phys. Lett. B618 (2005) 131, arXiv:hep-ph/0503118.
[Xing:2005gk]
[8-457]
The Decay of Tau Leptons Produced in Neutrino-Nucleon Scatterings, Mayumi Aoki, Kaoru Hagiwara, Kentarou Mawatari, Hiroshi Yokoya, Nucl. Phys. B727 (2005) 163, arXiv:hep-ph/0503050.
[Aoki:2005wb]
[8-458]
Signature of the Minimal Supersymmetric Standard Model with Right-Handed Neutrinos in Long Baseline Experiments, Toshihiko Ota, Joe Sato, Phys. Rev. D71 (2005) 096004, arXiv:hep-ph/0502124.
[Ota:2005et]
[8-459]
CNGS neutrino beam systematics for $\theta_{13}$, A. Ferrari, A. Guglielmi, P. R. Sala, Nucl. Phys. Proc. Suppl. 145 (2005) 93, arXiv:hep-ph/0501283.
[Ferrari:2005ha]
[8-460]
Resolving parameter degeneracies in long-baseline experiments by atmospheric neutrino data, P. Huber, M. Maltoni, T. Schwetz, Phys. Rev. D71 (2005) 053006, arXiv:hep-ph/0501037.
[Huber:2005ep]
[8-461]
From parameter space constraints to the precision determination of the leptonic Dirac CP phase, Patrick Huber, Manfred Lindner, Walter Winter, JHEP 0505 (2005) 020, arXiv:hep-ph/0412199.
[Huber:2004gg]
[8-462]
Effect of the smaller mass-squared difference for the long base-line neutrino experiments, Naotoshi Okamura, Prog. Theor. Phys. 114 (2006) 1045, arXiv:hep-ph/0411388.
[Okamura:2004if]
[8-463]
Direct test of the MSW effect by the solar appearance term in beam experiments, Walter Winter, Phys. Lett. B613 (2005) 67, arXiv:hep-ph/0411309.
[Winter:2004mt]
[8-464]
Earth Matter Effects at Very Long Baselines and the Neutrino Mass Hierarchy, Raj Gandhi, Pomita Ghoshal, Srubabati Goswami, Poonam Mehta, S Uma Sankar, Phys. Rev. D73 (2006) 053001, arXiv:hep-ph/0411252.
[Gandhi:2004bj]
[8-465]
The $\theta_{13}$ and $\delta_{CP}$ sensitivities of the SPL- Frejus project revisited, Jean Eric Campagne, Antoine Cazes, Eur. Phys. J. C45 (2006) 643, arXiv:hep-ex/0411062.
[Campagne:2004wt]
[8-466]
Detecting matter effects in long baseline experiments, Debajyoti Choudhury, Anindya Datta, JHEP 0507 (2005) 058, arXiv:hep-ph/0410266.
[Choudhury:2004sv]
[8-467]
Neutrino Scattering Uncertainties and their Role in Long Baseline Oscillation Experiments, D.A.Harris et al. (MINERvA), arXiv:hep-ex/0410005, 2004.
[MINERvA:2004whn]
[8-468]
Comparisons and Combinations of Reactor and Long-Baseline Neutrino Oscillation Measurements, Kendall B. McConnel, Michael H. Shaevitz, Int. J. Mod. Phys. A21 (2006) 3825-3844, arXiv:hep-ex/0409028.
[McConnelMahn:2004gqo]
[8-469]
Large Matter Effects in ${{\nu_\mu \to \nu_\tau}}$ Oscillations, Raj Gandhi et al., Phys. Rev. Lett. 94 (2005) 051801, arXiv:hep-ph/0408361.
[Gandhi:2004md]
[8-470]
Untangling CP violation and the mass hierarchy in long baseline experiments, Olga Mena, Stephen Parke, Phys. Rev. D70 (2004) 093011, arXiv:hep-ph/0408070.
[Mena:2004sa]
[8-471]
Simulation of long-baseline neutrino oscillation experiments with GLoBES, P. Huber, M. Lindner, W. Winter, Comput. Phys. Commun. 167 (2005) 195, arXiv:hep-ph/0407333.
[Huber:2004ka]
[8-472]
Neutral currents and tests of three-neutrino unitarity in long-baseline experiments, V. Barger, S. Geer, K. Whisnant, New J. Phys. 6 (2004) 135, arXiv:hep-ph/0407140.
[Barger:2004db]
[8-473]
Determination of theta_{23} in Long-Baseline Neutrino Oscillation Experiments with Three-Flavor Mixing Effects, Hisakazu Minakata, Masashi Sonoyama, Hiroaki Sugiyama, Phys. Rev. D70 (2004) 113012, arXiv:hep-ph/0406073.
[Minakata:2004pg]
[8-474]
New plots and parameter degeneracies in neutrino oscillations, Osamu Yasuda, New J. Phys. 6 (2004) 83, arXiv:hep-ph/0405005.
[Yasuda:2004gu]
[8-475]
Is there maximal mixing in the lepton sector?, Stefan Antusch et al., Phys. Rev. D70 (2004) 097302, arXiv:hep-ph/0404268.
[Antusch:2004yx]
[8-476]
Neutrino oscillation studies with laser-driven beam dump facilities, S. V. Bulanov et al., Nucl. Instrum. Meth. A540 (2005) 25, arXiv:hep-ph/0404190.
[Bulanov:2004xb]
[8-477]
Probing oscillations into sterile neutrinos with cosmology, astrophysics and experiments, Marco Cirelli, Guido Marandella, Alessandro Strumia, Francesco Vissani, Nucl. Phys. B708 (2005) 215, arXiv:hep-ph/0403158.
[Cirelli:2004cz]
[8-478]
Proposal of a Simple Method to Estimate Neutrino Oscillation Probability and CP Violation in Matter, Akira Takamura, Keiichi Kimura, Hidekazu Yokomakura, Phys. Lett. B595 (2004) 414, arXiv:hep-ph/0403150.
[Takamura:2004cr]
[8-479]
Prospects of accelerator and reactor neutrino oscillation experiments for the coming ten years, P. Huber et al., Phys. Rev. D70 (2004) 073014, arXiv:hep-ph/0403068.
[Huber:2004ug]
[8-480]
Testing maximality in muon neutrino flavor mixing, S. Choubey, P. Roy, Phys. Rev. Lett. 93 (2004) 021803, arXiv:hep-ph/0310316.
[Choubey:2003yp]
[8-481]
Exploring Leptonic CP Violation by Reactor and Neutrino Superbeam Experiments, H. Minakata, H. Sugiyama, Phys. Lett. B580 (2004) 216, arXiv:hep-ph/0309323.
[Minakata:2003wq]
[8-482]
Variations on KamLAND: likelihood analysis and frequentist confidence regions, T. Schwetz, Phys. Lett. B577 (2003) 120, arXiv:hep-ph/0308003.
[Schwetz:2003se]
[8-483]
Precision Neutrino Oscillation Physics with an Intermediate Baseline Reactor Neutrino Experiment, S. Choubey, S.T. Petcov, M. Piai, Phys. Rev. D68 (2003) 113006, arXiv:hep-ph/0306017.
[Choubey:2003qx]
[8-484]
Three neutrino mixing after the first results from K2K and KamLAND, M. C. Gonzalez-Garcia, Carlos Pena-Garay, Phys. Rev. D68 (2003) 093003, arXiv:hep-ph/0306001.
[Gonzalez-Garcia:2003myw]
[8-485]
Tau Polarization in Tau-Neutrino Nucleon Scattering, K. Hagiwara, K. Mawatari, H. Yokoya, Nucl. Phys. B668 (2003) 364, arXiv:hep-ph/0305324.
[Hagiwara:2003di]
[8-486]
Extrinsic CPT Violation in Neutrino Oscillations in Matter, Magnus Jacobson, Tommy Ohlsson, Phys. Rev. D69 (2004) 013003, arXiv:hep-ph/0305064.
[Jacobson:2003wc]
[8-487]
The density distribution in the Earth along the CERN-Pyhasalmi baseline and its effect on neutrino oscillations, E. Kozlovskaya, J. Peltoniemi, J. Sarkamo, arXiv:hep-ph/0305042, 2003.
[Kozlovskaya:2003kk]
[8-488]
Reactor Neutrino Experiments Compared to Superbeams, P. Huber, M. Lindner, T. Schwetz, W. Winter, Nucl. Phys. B665 (2003) 487, arXiv:hep-ph/0303232.
[Huber:2003pm]
[8-489]
A note on the neutrino mass implications of the K2K experiment, S. Bose, A. Raychaudhuri, J. Phys. G29 (2003) 1069, arXiv:hep-ph/0303229.
[Bose:2002pi]
[8-490]
Modeling realistic earth matter density for CP violation in neutrino oscillation, L.-Y. Shan et al., Phys. Rev. D68 (2003) 013002, arXiv:hep-ph/0303112.
[Shan:2003vh]
[8-491]
Very Long Baseline Neutrino Oscillation Experiments for Precise Measurements of Mixing Parameters and CP Violating Effects, M. V. Diwan et al., Phys. Rev. D68 (2003) 012002, arXiv:hep-ph/0303081.
[Diwan:2003bp]
[8-492]
CP violation and matter effect for a variable earth density in very long baseline experiments, B. Brahmachari, S. Choubey, P. Roy, Nucl. Phys. B671 (2003) 483, arXiv:hep-ph/0303078.
[Brahmachari:2003bk]
[8-493]
Neutrino superbeams and the magic baseline, A. Asratyan et al., arXiv:hep-ex/0303023, 2003.
[Asratyan:2003dp]
[8-494]
Next generation long baseline experiments on the path to leptonic CP violation, P. Migliozzi, F. Terranova, Phys. Lett. B563 (2003) 73, arXiv:hep-ph/0302274.
[Migliozzi:2003pw]
[8-495]
Exploring the sensitivity of current and future experiments to $\theta_{\odot}$, A. Bandyopadhyay, S. Choubey, S. Goswami, Phys. Rev. D67 (2003) 113011, arXiv:hep-ph/0302243.
[Bandyopadhyay:2003du]
[8-496]
Maximum likelihood analysis of the first KamLAND results, A. Ianni, J. Phys. G29 (2003) 2107, arXiv:hep-ph/0302230.
[Ianni:2003xy]
[8-497]
Multi-ring signatures of the oscillation $\nu_\mu \to \nu_e$ in a water Cherenkov detector, A. Asratyan et al., Eur. Phys. J. C31 (2003) 31, arXiv:hep-ex/0302013.
[Asratyan:2003ci]
[8-498]
The Complementarity of Eastern and Western Hemisphere Long-Baseline Neutrino Oscillation Experiments, H. Minakata, H. Nunokawa, Stephen Parke, Phys. Rev. D68 (2003) 013010, arXiv:hep-ph/0301210.
[Minakata:2003ca]
[8-499]
Synergies between the first-generation JHF-SK and NuMI superbeam experiments, P. Huber, M. Lindner, W. Winter, Nucl. Phys. B654 (2003) 3, arXiv:hep-ph/0211300.
[Huber:2002rs]
[8-500]
Reactor measurement of Theta(13) and its complementarity to long-baseline experiments, H. Minakata, H. Sugiyama, O. Yasuda, K. Inoue, F. Suekane, Phys. Rev. D68 (2003) 033017, arXiv:hep-ph/0211111.
[Minakata:2002jv]
[8-501]
Yet another correlation in the analysis of CP violation using a neutrino oscillation experiment, Toshihiko Ota, J. Sato, Phys. Rev. D67 (2003) 053003, arXiv:hep-ph/0211095.
[Ota:2002fu]
[8-502]
How two neutrino superbeam experiments do better than one, V. Barger, D. Marfatia, K. Whisnant, Phys. Lett. B560 (2003) 75, arXiv:hep-ph/0210428.
[Barger:2002xk]
[8-503]
Sensitivity to $\theta_{13}$ of the CERN to Gran Sasso neutrino beam, M. Komatsu, P. Migliozzi, F. Terranova, J. Phys. G29 (2003) 443, arXiv:hep-ph/0210043.
From the abstract: ... a revised analysis of the OPERA $\nu_\mu \rightarrow \nu_e$ search is given.
[Komatsu:2002sz]
[8-504]
Long Baseline Neutrino Experiments and the LOW solution - What is Left to Do and How Well Can It Be Done, Gabriela Barenboim, Andre de Gouvea, arXiv:hep-ph/0209117, 2002.
[Barenboim:2002nv]
[8-505]
Measuring the CP-violating phase by a long base-line neutrino experiment with Hyper-Kamiokande, M. Aoki, K. Hagiwara, N. Okamura, Phys. Lett. B554 (2003) 121, arXiv:hep-ph/0208223.
[Aoki:2002ae]
[8-506]
Three-flavor solar neutrino oscillations with terrestrial neutrino constraints, G. L. Fogli et al., Phys. Rev. D66 (2002) 093008, arXiv:hep-ph/0208026.
[Fogli:2002pb]
[8-507]
Off-axis Beams and Detector Clusters: Resolving Neutrino Parameter Degeneracies, V. Barger, D. Marfatia, K. Whisnant, Phys. Rev. D66 (2002) 053007, arXiv:hep-ph/0206038.
[Barger:2002rr]
[8-508]
Neutrino Oscillations with a Proton Driver Upgrade and an Off-Axis Detector: A Case Study, Mayda Velasco Gabriela Barenboim, Andre de Gouvea, Michal Szleper, arXiv:hep-ph/0204208, 2002.
[Barenboim:2002zx]
[8-509]
Exact Formula of Probability and CP Violation for Neutrino Oscillations in Matter, K. Kimura, A. Takamura, H. Yokomakura, Phys. Lett. B537 (2002) 86-94, arXiv:hep-ph/0203099.
[Kimura:2002hb]
[8-510]
Long Baseline Neutrino Physics: From Fermilab to Kamioka, Fritz DeJongh, arXiv:hep-ex/0203005, 2002. See also PhysicsWeb News: US could beam neutrinos to Japan.
[DeJongh:2002dv]
[8-511]
Can ICARUS and OPERA give information on a new physics ?, Toshihiko Ota, J. Sato, Phys. Lett. B545 (2002) 367-372, arXiv:hep-ph/0202145.
[Ota:2002na]
[8-512]
CP violation in long baseline neutrino oscillation experiments, Chise Sakaguchi, Toshihiko Hattori, Seiichi Wakaizumi, arXiv:hep-ph/0112327, 2001.
[Sakaguchi:2001pu]
[8-513]
Effects of matter density variations on dominant oscillations in long baseline neutrino experiments, G. L. Fogli, G. Lettera, E. Lisi, arXiv:hep-ph/0112241, 2001.
[Fogli:2001tm]
[8-514]
Geophysical aspects of very long baseline neutrino experiments, Robert J. Geller, Tatsuhiko Hara, Nucl. Instrum. Meth. A503 (2003) 187, arXiv:hep-ph/0111342.
[Geller:2001ix]
[8-515]
Probing neutrino oscillations jointly in long and very long baseline experiments, Y. F. Wang, K. Whisnant, Zhao-hua Xiong, Jin Min Yang, Bing-Lin Young (VLBL Study Group H2B-4), Phys. Rev. D65 (2002) 073021, arXiv:hep-ph/0111317.
[Wang:2001ys]
[8-516]
Neutrino oscillation parameters from MINOS, ICARUS and OPERA combined, V. D. Barger et al., Phys. Rev. D65 (2002) 053016, arXiv:hep-ph/0110393.
[Barger:2001yxa]
[8-517]
CP violation and matter effect in long-baseline neutrino oscillation in the four-neutrino model, Toshihiko Hattori, Tsutom Hasuike, Seiichi Wakaizumi, Phys. Rev. D65 (2002) 073027, arXiv:hep-ph/0109124.
[Hattori:2001xs]
[8-518]
On the optimum long baseline for the next generation neutrino oscillation experiments, Yi-fang Wang, Kerry Whisnant, Bing-Lin Young, Phys. Rev. D65 (2002) 073006, arXiv:hep-ph/0109053.
[Wang:2001zb]
[8-519]
Extra long baseline neutrino oscillations and CP violation, William J. Marciano, arXiv:hep-ph/0108181, 2001.
[Marciano:2001tz]
[8-520]
More straightforward extraction of the fundamental lepton mixing parameters from long-baseline neutrino oscillations, Zhi-zhong Xing, Phys. Rev. D64 (2001) 073014, arXiv:hep-ph/0107123.
[Xing:2001yg]
[8-521]
Neutrino oscillations with two Delta(m**2) scales, Irina Mocioiu, Robert Shrock, JHEP 11 (2001) 050, arXiv:hep-ph/0106139.
[Mocioiu:2001jy]
[8-522]
Testing relativistic effect of propagation of gravity by very-long baseline interferometry, Sergei M. Kopeikin, Astrophys. J. 556 (2001) L1-L6, arXiv:gr-qc/0105060.
[Kopeikin:2001tq]
[8-523]
Studying matter effects in very long baseline neutrino oscillation experiments, S. T. Petcov, 2001.
[Petcov:2001vu]
[8-524]
Testing LSND at long-baseline neutrino experiments, Gabriela Barenboim, Mohan Narayan, S. Uma Sankar, arXiv:hep-ph/0009247, 2000.
[Barenboim:2000xr]
[8-525]
Four neutrino oscillation analysis of atmospheric neutrino data and application to long baseline experiments, O. Yasuda, arXiv:hep-ph/0008256, 2000.
[Yasuda:2000wb]
[8-526]
Testing neutrino properties at long baseline experiments and neutrino factories, Sandip Pakvasa, Nucl. Instrum. Meth. A472 (2000) 413-420, arXiv:hep-ph/0008193.
[Pakvasa:2000yp]
[8-527]
A comparison of the physics potential of future long baseline neutrino oscillation experiments, Karin Dick, Martin Freund, Patrick Huber, Manfred Lindner, Nucl. Phys. B598 (2001) 543-553, arXiv:hep-ph/0008016.
[Dick:2000ce]
[8-528]
Comment on 'Linking solar and long baseline terrestrial neutrino experiments', N. Haba, Tomoharu Suzuki, arXiv:hep-ph/0007249, 2000.
[Haba:2000fp]
[8-529]
Reply to 'Is U(e3) really related to the solar neutrino solutions?', Evgeny K. Akhmedov, G.C. Branco, M.N. Rebelo, arXiv:hep-ph/0007029, 2000.
[Akhmedov:2000vv]
[8-530]
Is U(e3) really related to the solar neutrino solutions?, N. Haba, Tomoharu Suzuki, Mod.Phys.Lett. A15 (2000) 2257-2264, arXiv:hep-ph/0006281.
[Haba:2000xz]
[8-531]
CP and T violation in long baseline experiments with low energy neutrino, J. Sato, arXiv:hep-ph/0006127, 2000.
[Sato:1999sb]
[8-532]
Matter effects on neutrino oscillations in long baseline experiments, Irina Mocioiu, Robert Shrock, Phys. Rev. D62 (2000) 053017, arXiv:hep-ph/0002149.
[Mocioiu:2000st]
[8-533]
Neutrino decay and long base-line oscillation experiments, Vo Van Thuan, Nguyen Tuan Anh, Le Huu Thang, arXiv:hep-ph/0002124, 2000.
[Thuan:2000pk]
[8-534]
CP violation effect in long-baseline neutrino oscillation in the four-neutrino model, Toshihiko Hattori, Tsutom Hasuike, Seiichi Wakaizumi, Phys. Rev. D62 (2000) 033006, arXiv:hep-ph/0002096.
[Hattori:2000hv]
[8-535]
Matter effects study in very long baseline neutrino oscillation experiments, A. Bueno, Mario Campanelli, A. Rubbia, AIP Conf.Proc. 533 (2000) 196.
[Bueno:1999yx]
[8-536]
Very long baseline neutrino oscillation experiments and the MSW effect, M. Freund, M. Lindner, S. T. Petcov, A. Romanino, Nucl. Instrum. Meth. A451 (2000) 18-35.
[Freund:2000vt]
[8-537]
Testing matter effects in very long baseline neutrino oscillation experiments, M. Freund, M. Lindner, S. T. Petcov, A. Romanino, Nucl. Phys. B578 (2000) 27-57, arXiv:hep-ph/9912457.
[Freund:1999gy]
[8-538]
Four-neutrino mixing and long-baseline experiments, Carlo Giunti, JHEP 01 (2000) 032, arXiv:hep-ph/9912211.
[Giunti:1999vc]
[8-539]
Linking solar and long baseline terrestrial neutrino experiments, E. K. Akhmedov, G. C. Branco, M. N. Rebelo, Phys. Rev. Lett. 84 (2000) 3535, arXiv:hep-ph/9912205.
[Akhmedov:1999uw]
[8-540]
Long-baseline study of the leading neutrino oscillation at a neutrino factory, V. D. Barger, S. Geer, R. Raja, K. Whisnant, Phys. Rev. D62 (2000) 013004, arXiv:hep-ph/9911524.
[Barger:1999jj]
[8-541]
Testing flavor changing neutrino interactions in long baseline experiments, A. M. Gago, L. P. Freitas, O. L. G. Peres, R. Zukanovich Funchal, arXiv:hep-ph/9911470, 1999.
[Gago:1999ws]
[8-542]
T-violation search with very long baseline neutrino oscillation experiments, M. Koike, J. Sato, Phys. Rev. D62 (2000) 073006, arXiv:hep-ph/9911258.
[Koike:1999tb]
[8-543]
Matter effects on long baseline neutrino oscillation experiments, Irina Mocioiu, Robert Shrock, AIP Conf. Proc. 533 (2000) 74-79, arXiv:hep-ph/9910554.
[Mocioiu:1999ag]
[8-544]
Three flavor neutrino oscillations and application to long baseline experiments, O. Yasuda, Acta Phys. Polon. B30 (1999) 3089-3103, arXiv:hep-ph/9910428.
[Yasuda:1999uv]
[8-545]
CP and T violation in long baseline experiments with low energy neutrino from muon storage ring, M. Koike, J. Sato, Phys. Rev. D61 (2000) 073012, arXiv:hep-ph/9909469.
[Koike:1999hf]
[8-546]
Long baseline neutrino physics with a muon storage ring neutrino source, V. D. Barger, S. Geer, K. Whisnant, Phys. Rev. D61 (2000) 053004, arXiv:hep-ph/9906487.
[Barger:1999fs]
[8-547]
Three-family oscillations using neutrinos from muon beams at very long baseline, Mario Campanelli, A. Bueno, A. Rubbia, arXiv:hep-ph/9905240, 1999.
[Campanelli:1999ez]
[8-548]
Probing the matter term at long baseline experiments, Mohan Narayan, S. Uma Sankar, Phys. Rev. D61 (2000) 013003, arXiv:hep-ph/9904302.
[Narayan:1999ck]
[8-549]
Matter effects in long-baseline experiments, the flavor content of the heaviest (or lightest) neutrino and the sign of Delta(m**2), Paolo Lipari, Phys. Rev. D61 (2000) 113004, arXiv:hep-ph/9903481.
[Lipari:1999wy]
[8-550]
Neutrino mixing and masses from long baseline and atmospheric oscillation experiments, Gabriela Barenboim, Florian Scheck, Phys. Lett. B450 (1999) 189-195, arXiv:hep-ph/9812351.
[Barenboim:1998di]
[8-551]
Long baseline neutrino oscillation disappearance search using a nu beam from muon decays, A. Bueno, Mario Campanelli, A. Rubbia, arXiv:hep-ph/9808485, 1998.
[Bueno:1998pj]
[8-552]
Atmospheric neutrinos, long-baseline neutrino beams and the precise measurement of the neutrino oscillation parameters, G. Battistoni, P. Lipari, Italian Phys.Soc.Proc. 65 (1999) 547-574, arXiv:hep-ph/9807475.
[Battistoni:1998fy]
[8-553]
Four-neutrino mixing and long-baseline neutrino oscillation experiments, S. M. Bilenky, C. Giunti, W. Grimus, arXiv:hep-ph/9805387, 1998.
[Bilenky:1988soz]
[8-554]
Effects of matter density fluctuation in long baseline neutrino oscillation experiments, M. Koike, J. Sato, Mod. Phys. Lett. A14 (1999) 1297-1302, arXiv:hep-ph/9803212.
[Koike:1998hy]
[8-555]
Implications of CHOOZ results for the decoupling of solar and atmospheric neutrino oscillations, S. M. Bilenky, C. Giunti, Phys. Lett. B444 (1998) 379, arXiv:hep-ph/9802201.
[Giunti:1998qn]
[8-556]
Three neutrino oscillations applied to solar and long baseline experiments, S. K. Hayward, 1998. UMI-612-27158-7.
[Hayward:1998ct]
[8-557]
Long-baseline neutrino oscillation experiments and CP violation in the lepton sector, S. M. Bilenky, C. Giunti, W. Grimus, Phys. Rev. D58 (1998) 033001, arXiv:hep-ph/9712537.
[Bilenky:1997dd]
[8-558]
Constraints on long-baseline neutrino oscillations from the results of neutrino oscillation experiments, S. M. Bilenky, C. Giunti, W. Grimus, Nucl. Phys. Proc. Suppl. 70 (1999) 258-260, arXiv:hep-ph/9711432.
[Bilenky:1997hw]
[8-559]
Bounds on long-baseline $\bar\nu_e\to\bar\nu_e$ and $\nu_{\mu}\to\nu_{e}$ ($\bar\nu_{\mu}\to\bar\nu_{e}$) transition probabilities, S. M. Bilenky, C. Giunti, W. Grimus, Phys. Rev. D57 (1998) 1920-1933, arXiv:hep-ph/9710209.
[Bilenky:1997zm]
[8-560]
CP- and T-violation effects in long baseline neutrino oscillation experiments, M. Koike, J. Sato, arXiv:hep-ph/9707203, 1997.
[Koike:1997dh]
[8-561]
Constraints on long-baseline neutrino oscillation probabilities and CP asymmetries from neutrino oscillation data, S. M. Bilenky, C. Giunti, W. Grimus, Phys. Rev. D57 (1997) 1920, arXiv:hep-ph/9705300.
[Bilenky:1997xc]
[8-562]
CP violation vs. matter effect in long-baseline neutrino oscillation experiments, H. Minakata, H. Nunokawa, Phys. Rev. D57 (1998) 4403-4417, arXiv:hep-ph/9705208.
[Minakata:1998bf]
[8-563]
CP violation and matter effect in long baseline neutrino oscillation experiments, J. Arafune, M. Koike, J. Sato, Phys. Rev. D56 (1997) 3093-3099, arXiv:hep-ph/9703351.
[Arafune:1997hd]
[8-564]
What can long-baseline neutrino oscillation experiments tell us about neutrino dark matter?, H. Minakata, Y. Shimada, Astropart. Phys. 8 (1998) 193-200, arXiv:hep-ph/9701362.
[Minakata:1997sm]
[8-565]
Prediction on CP violation in long baseline neutrino oscillation experiments, M. Tanimoto, Prog. Theor. Phys. 97 (1997) 901-912, arXiv:hep-ph/9612444.
[Tanimoto:1996by]
[8-566]
Is CP violation observable in long baseline neutrino oscillation experiments?, M. Tanimoto, Phys. Rev. D55 (1997) 322-329, arXiv:hep-ph/9605413.
[Tanimoto:1996ky]
[8-567]
Tests of three-flavor mixing in long-baseline neutrino oscillation experiments, G. L. Fogli, E. Lisi, Phys. Rev. D54 (1996) 3667-3670, arXiv:hep-ph/9604415.
[Fogli:1996pv]
[8-568]
Short and long baseline neutrino oscillation searches: A three-flavour analysis, G. L. Fogli, E. Lisi, G. Scioscia, Nucl. Phys. Proc. Suppl. 48 (1996) 193-197.
[Fogli:1996xi]
[8-569]
Atmospheric neutrino oscillations among three neutrino flavors and long baseline experiments, S. M. Bilenky, C. Giunti, C. W. Kim, Astropart. Phys. 4 (1996) 241-251, arXiv:hep-ph/9505301.
[Bilenky:1995ph]
[8-570]
A test of a kind of the equivalence principle by long- baseline neutrino oscillation experiments, O. Yasuda, arXiv:gr-qc/9403023, 1994.
[Yasuda:1994nu]
[8-571]
Measurement of the 3 neutrino mixing matrix using long baseline and other neutrino sources, David B. Cline, 1994. Solar Modeling Workshop, Seattle, WA, 21-24 Mar 1994.
[Cline:1994iu]
[8-572]
Old and new interactions in long baseline neutrino experiments, G. Fiorentini, B. Ricci, 1993. 5th International Workshop on Neutrino Telescopes, Venice, Italy, 2-4 Mar 1993.
[Fiorentini:1993iz]
[8-573]
Oscillating atmospheric neutrinos: Surface neutrino telescopes versus long baseline, M. A. Doncheski, F. Halzen, T. Stelzer, Phys. Rev. D46 (1992) 505-509.
[Doncheski:1992ec]

9 - Phenomenology - Talks

[9-1]
Overview of the physics prospects in MOMENT, Sampsa Vihonen, PoS NuFact2021 (2022) 065, arXiv:2202.05509. 22nd International Workshop on Neutrinos from Accelerators (NuFact 2021) in Cagliari, Italy.
[Vihonen:2022thz]
[9-2]
Resolving the NO$\nu$A and T2K tension in the presence of Neutrino Non-Standard interactions, Sabya Sachi Chatterjee, Antonio Palazzo, PoS NuFact2021 (2022) 059, arXiv:2201.10412. 22nd International Workshop on Neutrinos from Accelerators (NuFact2021).
[Chatterjee:2022nia]
[9-3]
Effect of sterile phases on degeneracy resolution capabilities of LBL experiments, Akshay Chatla, Bindu A. Bambah, Phys.At.Nucl. 84 (2021) 377-380, arXiv:2010.06321. 5th international conference on particle physics and astrophysics, Moscow (05-09 October 2020).
[Chatla:2020bqb]
[9-4]
Super-ORCA: Measuring the leptonic CP-phase with Atmospheric Neutrinos and Beam Neutrinos, Jannik Hofestadt, Marc Bruchner, Thomas Eberl, PoS ICRC2019 (2019) 911, arXiv:1907.12983. 36th ICRC (Madison, WI; 2019).
[Hofestadt:2019whx]
[9-5]
Matter density profile effects on neutrino oscillations at T2HK and T2HKK, Susana Molina Sedgwick, arXiv:1904.10232, 2019. NuPhys2018 (London, 19-21 December 2018).
[MolinaSedgwick:2019fmv]
[9-6]
Systematic Uncertainties and Cross-Checks for the NOvA Joint $\nu_\mu$+$\nu_e$ Analysis, Reddy Pratap Gandrajula, Micah Groh, arXiv:1808.10760, 2018. Neutrino 2018.
[Gandrajula:2018ytr]
[9-7]
Searching for MeV-scale Neutrinos with the DUNE Near Detector, P. Ballett, T. Boschi, S. Pascoli, arXiv:1803.10824, 2018. NuPhys2017 (London, 20-22 December 2017).
[Ballett:2018fah]
[9-8]
Parameter degeneracy and hierarchy sensitivity of NO$\nu$A in presence of sterile neutrino, Monojit Ghosh, Shivani Gupta, Zachary M. Matthews, Pankaj Sharma, Anthony G. Williams, PoS NuFact2017 (2018) 133, arXiv:1712.06714. 19th international Workshop on Neutrinos from Accelerators (NuFact2017), 25-30 September 2017, Uppsala University, Uppsala, Sweden.
[Ghosh:2017sli]
[9-9]
Pursuit for optimal baseline for matter nonstandard interactions in long baseline neutrino oscillation experiments, Timo J. Karkkainen, arXiv:1710.01080, 2017. 18th Lomonosov Conference on Elementary Particle Physics.
[Karkkainen:2017svj]
[9-10]
Non-Unitarity vs sterile neutrinos at DUNE, Josu Hernandez-Garcia, Jacobo Lopez-Pavon, arXiv:1705.01840, 2017. NuPhys2016 (London, 12-14 December 2016).
[Hernandez-Garcia:2017pwx]
[9-11]
Short- and long-baseline sterile neutrino phenomenology, Antonio Palazzo, arXiv:1705.01592, 2017. NuPhys2016 (London, 12-14 December 2016).
[Palazzo:2017wju]
[9-12]
Generalized degeneracies and their resolution in neutrino oscillation experiments, Newton Nath, Srubabati Goswami, K.N. Deepthi, Springer Proc.Phys. 203 (2018) 611-614, arXiv:1703.00245. XXII DAE-BRNS High Energy Physics Symposium, University of Delhi, India, Dec. 12-16, 2016.
[Nath:2017apu]
[9-13]
Why T2K should run in dominant neutrino mode to discover CP violation ?, Monojit Ghosh, Springer Proc.Phys. 203 (2018) 137-139, arXiv:1702.07885. XXII DAE-BRNS High Energy Physics Symposium, University of Delhi, India, 12-16 December, 2016.
[Ghosh:2017izc]
[9-14]
Effects of Matter in Neutrino Oscillations and Determination of Neutrino Mass Hierarchy at Long-baseline Experiments, Tomas Nosek, arXiv:1612.09132, 2016. Week of Doctoral Students 2016, Faculty of Mathematics and Physics, Charles University, Prague, WDS'16.
[Nosek:2016ttp]
[9-15]
What antineutrinos can tell about octant and $\delta_{CP}$ in DUNE?, Newton Nath, Monojit Ghosh, Srubabati Goswami, PoS ICHEP2016 (2016) 979, arXiv:1611.03635. 38th International Conference on High Energy Physics (ICHEP 2016), Chicago, Aug. 3-10, 2016.
[Nath:2016emw]
[9-16]
Should T2K run in dominant neutrino mode to detect CP violation ?, Monojit Ghosh, arXiv:1611.00220, 2016. 18th International Workshop on Neutrino Factories, Super beams and Beta beams (NuFact2016), August 21-27 2016, Quy Nhon, Vietnam.
[Ghosh:2016wde]
[9-17]
Complementarity Between Hyperkamiokande and DUNE, Osamu Yasuda, Shinya Fukasawa, Monojit Ghosh, arXiv:1610.09971, 2016. 18th International Workshop on Neutrino Factories, Super beams and Beta beams (NuFact2016), August 21-27 2016, Quy Nhon, Vietnam.
[Yasuda:2016mfo]
[9-18]
The next challenge for neutrinos: the mass ordering, Luca Stanco, EPJ Web Conf. 164 (2017) 01031, arXiv:1610.05533. ICFNP 2016.
[Stanco:2016usn]
[9-19]
The Physics of antineutrinos in DUNE and resolution of octant degeneracy, Newton Nath, Monojit Ghosh, Srubabati Goswami, J.Phys.Conf.Ser. 888 (2017) 012261, arXiv:1610.01183. Neutrino 2016, XXVII International Conference on Neutrino Physics and Astrophysics, 4-9 July 2016, London, UK.
[Nath:2016aak]
[9-20]
Neutrino energy reconstruction in long-baseline experiments, Erica Vagnoni, arXiv:1604.08392, 2016. NuPhys2015 (London, 16-18 December 2015).
[Vagnoni:2016daa]
[9-21]
Octant degeneracy, CPV phase at Long Baseline $\nu$ experiments and Baryogenesis, Kalpana Bora, Gayatri Ghosh, Debajyoti Dutta, arXiv:1511.02452, 2015. National Conference on Current Issues in Cosmology, Astrophysics and High Energy Physics, December 2-5, 2015, Dibrugarh University, Assam, INDIA.
[Bora:2015lyo]
[9-22]
The Search for Neutrino-Antineutrino Mixing from Lorentz Invariance Violation using Neutrino Interactions in MINOS, Stuart Mufson, Brian Rebel, arXiv:1308.2256, 2013. Sixth Meeting on CPT and Lorentz Symmetry, Bloomington, Indiana, June 17-21, 2013.
[Mufson:2013yia]
[9-23]
Tests of Lorentz and CPT violation with neutrinos, Teppei Katori (LSND, MiniBooNE, Double Chooz), PoS ICHEP2012 (2013) 008, arXiv:1211.7129. 36th International Conference on High Energy Physics (ICHEP2012), Melbourne, Victoria, Australia, July 4-11, 2012.
[Katori:2012hc]
[9-24]
Phenomenology of future neutrino experiments with large Theta(13), Hisakazu Minakata, Nucl. Phys. Proc. Suppl. 235-236 (2013) 173-179, arXiv:1209.1690. Neutrino 2012, Kyoto, Japan, June 3-9, 2012.
[Minakata:2012ue]
[9-25]
Measurement of Effective $\Delta m_{31}^2$ using Baseline Differences of Daya Bay, RENO and Double Chooz Reactor Neutrino Experiments, T.J.C. Bezerra, H. Furuta, F. Suekane, arXiv:1206.6017, 2012. Neutrino2012.
[Bezerra:2012vf]
[9-26]
Neutrino-Long-Baseline Experiments and Nuclear Physics, Ulrich Mosel, Olga Lalakulich, PoS BORMIO2012 (2012) 034, arXiv:1204.2269. 50th International Winter Meeting on Nuclear Physics - Bormio 2012, January 23-27, Bormio, Italy.
[Mosel:2012hr]
[9-27]
Neutrino-Nucleus Interactions around 1 GeV, Ulrich Mosel, AIP Conf. Proc. 1441 (2012) 465-467, arXiv:1111.1732. PANIC11, July 24-29, 2011, Cambridge, USA.
[Mosel:2011vf]
[9-28]
If Theta(13) is large, then what?, Hisakazu Minakata, J. Phys. Conf. Ser. 408 (2013) 012034, arXiv:1110.4237. XIIIth International Workshop on Neutrino Factories, Superbeams and Betabeams (NuFact11), 1-6 August 2011, CERN-University of Geneva, Geneva, Switzerland.
[Minakata:2011hg]
[9-29]
New approach to anti-neutrino from muon decay at rest, Sanjib Kumar Agarwalla, arXiv:1107.4951, 2011. 46th Rencontres de Moriond, Electroweak Session, March 13th - 20th, 2011 in La Thuile, Italy.
[Agarwalla:2011qv]
[9-30]
Entanglement of Quasielastic Scattering and Pion Production, Ulrich Mosel, Olga Lalakulich, Tina Leitner, AIP Conf. Proc. 1405 (2011) 207-212, arXiv:1107.3771. NuInt11, Dehradun, India, March 2011.
[Mosel:2011qx]
[9-31]
Some attempts to explain MINOS anomaly, Osamu Yasuda, AIP Conf. Proc. 1382 (2011) 103-105, arXiv:1012.3478. 12th International Workshop on Neutrino Factories, Superbeams and Beta Beams (NuFact10), October 20-25, 2010, Mumbai, India.
[Yasuda:2010aa]
[9-32]
Sensitivity of T2KK to non-standard interactions, Osamu Yasuda, Nucl. Phys. Proc. Suppl. 217 (2011) 220-222, arXiv:1011.6440. NOW 2010: Neutrino Oscillation Workshop, Conca Specchiulla (Otranto), Lecce, Italy, 4-11 Sep 2010.
[Yasuda:2010hw]
[9-33]
Neutrino Oscillometry, J.D.Vergados, Y. Giomataris, Yu. N. Novikov, J. Phys. Conf. Ser. 259 (2010) 012100, arXiv:1010.4388. PASCOS10, Valencia spain and Neutrino 2010, Athens Greece.
[Vergados:2010sj]
[9-34]
On extraction of oscillation parameters, Jan Sobczyk, Jakub Zmuda, arXiv:0912.0021, 2009. European Strategy for Future Neutrino Physics.
[Sobczyk:2009kx]
[9-35]
Long-baseline neutrino experiments as tests for Lorentz violation, Jorge S. Diaz, arXiv:0909.5360, 2009. DPF-2009, Detroit, MI, July 2009.
[Diaz:2009ep]
[9-36]
CP Violation in Neutrino Oscillations without Antineutrinos: Energy Dependence, Jose Bernabeu, Catalina Espinoza, arXiv:0905.2913, 2009. 13th International Workshop on Neutrino Telescopes, Venice, March 10-13, 2009.
[Bernabeu:2009ds]
[9-37]
Exploration of Possible Quantum Gravity Effects with Neutrinos II: Lorentz Violation in Neutrino Propagation, Alexander Sakharov, John Ellis, Nicholas Harries, Anselmo Meregaglia, Andre Rubbia, J. Phys. Conf. Ser. 171 (2009) 012039, arXiv:0903.5048. DISCRETE'08, Valencia, Spain; December 2008.
[Sakharov:2009sh]
[9-38]
Exploration of Possible Quantum Gravity Effects with Neutrinos I: Decoherence in Neutrino Oscillations Experiments, Alexander Sakharov, Nick Mavromatos, Anselmo Meregaglia, Andre Rubbia, Sarben Sarkar, J. Phys. Conf. Ser. 171 (2009) 012038, arXiv:0903.4985. DISCRETE'08, Valencia, Spain; December 2008.
[Sakharov:2009rn]
[9-39]
Neutrino oscillograms of the Earth and CP violation in neutrino oscillations, Evgeny Akhmedov, Nucl. Phys. Proc. Suppl. 188 (2009) 204-206, arXiv:0901.3450. Neutrino Oscillations Workshop NOW2008.
[Akhmedov:2009hq]
[9-40]
Sterile neutrinos at future long baseline experiments, Davide Meloni, Nucl. Phys. Proc. Suppl. 188 (2009) 207-210, arXiv:0812.3555. NOW2008, Conca Specchiulla, Otranto, Italy, September 6-13, 2008.
[Meloni:2008ti]
[9-41]
Three-flavour neutrino oscillation update and comments on possible hints for a non-zero $\theta_{13}$, Michele Maltoni, Thomas Schwetz, PoS IDM2008 (2008) 072, arXiv:0812.3161. IDM2008, Aug. 18-22, 2008, Stockholm, Sweden.
[Maltoni:2008ka]
[9-42]
Probing Non Standard Neutrino Physics at T2KK and Neutrino Factory, Shoichi Uchinami, PoS NUFACT08 (2008) 056, arXiv:0810.3821. 10th International Workshop on Neutrino Factories, Super beams and Beta beams (Nufact08), June 30 - July 5 2008, Valencia, Spain.
[Uchinami:2008xg]
[9-43]
Prospects and synergies between future atmospheric and long-baseline experiments, Michele Maltoni, PoS NUFACT08 (2008) 037, arXiv:0810.1440. 10th International Workshop on Neutrino Factories, Super beams and Beta beams (NuFact'08), Valencia, Spain, June 30 - July 5, 2008.
[Maltoni:2008ie]
[9-44]
Optimisation of future long baseline neutrino experiments, Olga Mena, PoS NUFACT08 (2008) 005, arXiv:0809.4829. 10th International Workshop on Neutrino factories, Super beams and Beta beams (NuFact08), Valencia, Spain.
[Mena:2008gu]
[9-45]
Probing Non-Standard Neutrino Physics at Neutrino Factory and T2KK, Hisakazu Minakata, arXiv:0805.2435, 2008. Fourth International Workshop on Neutrino Oscillations in Venice - Ten Years after the Neutrino Oscillations, (NO-VE 2008) Venice, Italy. 15-18, April 2008.
[Minakata:2008gv]
[9-46]
Looking for Leptonic CP Violation with Neutrinos, Hisakazu Minakata, Acta Phys. Polon. B39 (2008) 283-294, arXiv:0801.2427. XXX Mazurian Lakes Conference on Physics, Piaski, Poland, September 2-9, 2007.
[Minakata:2008yz]
[9-47]
Non-Standard Neutrino Physics Probed by Tokai-to-Kamioka-Korea Two-Detector Complex, Nei Cipriano Ribeiro et al., arXiv:0801.2426, 2008. 13th Lomonosov Conference on Elementary Particle Physics, Moscow State University, Moscow, Russia, August 23-29, 2007.
[Ribeiro:2008yy]
[9-48]
The Capabilities of Monochromatic EC Neutrino Beams with the SPS Upgrade, Catalina Espinoza, Jose Bernabeu, J. Phys. Conf. Ser. 110 (2008) 082006, arXiv:0710.5615. International Europhysics Conference on High Energy Physics (EPS-HEP2007), Manchester, England, 19-25 July 2007.
[Espinoza:2007kq]
[9-49]
Long Baseline Neutrino Experiments with Two-Detector Setup, Hisakazu Minakata, Int. J. Mod. Phys. A23 (2008) 3388-3394, arXiv:0710.2926. Fourth International Conference on Flavor Physics (ICFP2007), Beijing, China, September 24-28, 2007.
[Minakata:2007as]
[9-50]
The effect of Topcolor Assisted Technicolor, and other models, on Neutrino Oscillation, Minako Honda et al., arXiv:0704.0369, 2007. SCGT06, 21-24 November 2006, Nagoya, Japan.
[Honda:2007yd]
[9-51]
Resolving the Octant theta(23) Degeneracy by Neutrino Oscillation Experiments, Hiroshi Nunokawa, Nucl. Phys. Proc. Suppl. 168 (2007) 212-214, arXiv:hep-ph/0612222. NOW2006, Otrant, Lecce, Italy, September 9-16, 2006.
[Nunokawa:2006mc]
[9-52]
Comparison of the CERN-MEMPHYS and T2HK neutrino oscillation experiments, Thomas Schwetz, Nucl. Phys. Proc. Suppl. 168 (2007) 202-204, arXiv:hep-ph/0611261. NOW 2006, 9-16 Sep 2006, Conca Specchiulla, Otranto, Italy.
[Schwetz:2006ti]
[9-53]
Tau polarization effects in the CNGS tau-neutrino appearance experiments, Mayumi Aoki, Kaoru Hagiwara, Kentarou Mawatari, Hiroshi Yokoya, Nucl. Phys. Proc. Suppl. 159 (2006) e1-e5, arXiv:hep-ph/0611255. 4th International Workshop on Neutrino-Nucleus Interactions in the Few GeV Region (NuInt05), September 26-29, 2005, Okayama, Japan.
[Aoki:2006tc]
[9-54]
Constraints on New Physics from Matter Effects on Neutrino Oscillation, Minako Honda et al., arXiv:hep-ph/0610281, 2006. YITP Workshop 'Progress in Particle Physics', July 31, 2006.
[Honda:2006di]
[9-55]
Intense Neutrino Beams and Leptonic CP Violation, William Marciano, Zohreh Parsa, Nucl. Phys. Proc. Suppl. 221 (2011) 166-172, arXiv:hep-ph/0610258. Neutrino 2006.
[Marciano:2006uc]
[9-56]
Getting the most from NOvA and T2K, Olga Mena, arXiv:hep-ph/0609031, 2006. Neutrino 2006, Santa Fe, New Mexico, June 13-19, 2006.
[Mena:2006zd]
[9-57]
Neutrino physics at accelerators, Enrique Fernandez, J. Phys. Conf. Ser. 53 (2006) 83-106, arXiv:hep-ex/0607024. Corfu Summer Institute on Elementary Particle Physics 2005.
[Fernandez:2006vn]
[9-58]
Do Neutrinos Violate CP?, Hisakazu Minakata, arXiv:hep-ph/0604088, 2006. 3rd Interntional Workshop Neutrino Oscillations in Venice (NO-VE 2006): 50 Years after the Neutrino Experimental Discovery, Venice, Italy, 7-10 Feb 2006.
[Minakata:2006fe]
[9-59]
Neutrino tomography - Learning about the Earth's interior using the propagation of neutrinos, Walter Winter, Earth Moon Planets 99 (2006) 285-307, arXiv:physics/0602049. Neutrino sciences 2005: Neutrino geophysics, December 14-16, 2005, Honolulu, USA.
[Winter:2006vg]
[9-60]
Ramifications of intranuclear re-scattering in MINOS, Michael Kordosky, Nucl. Phys. Proc. Suppl. 159 (2006) 223-228, arXiv:hep-ex/0602029. IV International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region, 26-29, September, 2005.
[Kordosky:2006gt]
[9-61]
Perspectives in Neutrino Physics: Monochromatic Neutrino Beams, J.Bernabeu, J.Burguet-Castell, C.Espinoza, M.Lindroos, arXiv:hep-ph/0512299, 2005. GUSTAVOFEST - Symposium in Honour of Gustavo C. Branco: CP Violation and the Flavour Puzzle, Lisbon, Portugal, 19-20 July 2005.
[Bernabeu:2005ks]
[9-62]
Physics Reach with a Monochromatic Neutrino Beam from Electron Capture, J. Bernabeu, J. Burguet-Castell, C. Espinoza, M. Lindroos, Pos HEP2005 (2006) 182, arXiv:hep-ph/0512297. International Europhysics Conference on High Energy Physics, HEP-EPS 2005, Lisbon, Portugal, July 21-27, 2005.
[Bernabeu:2005kq]
[9-63]
Establishing neutrino mass hierarchy and CP violation by two identical detectors with different baselines using the J-PARC neutrino beam, Masaki Ishitsuka, Takaaki Kajita, Hisakazu Minakata, Hiroshi Nunokawa, Nucl. Phys. Proc. Suppl. 155 (2006) 168, arXiv:hep-ph/0510166. NuFact05, 21-26 June, 2005, Frascati, Italy.
[Ishitsuka:2005mn]
[9-64]
$\nu_\mu$ disappearance at the SPL, T2K-I and the Neutrino Factory, A. Donini, E. Fernandez-Martinez, S. Rigolin, Nucl. Phys. Proc. Suppl. 155 (2006) 176, arXiv:hep-ph/0509349. NUFACT'05, 21-26 June 2005, Frascati.
[Donini:2005gy]
[9-65]
Resolve the Neutrino Parameter Degeneracies with the T2K Off-axis Beam and the Large Detector in Korea, Naotoshi Okamura, Aip Conf. Proc. 805 (2006) 310, arXiv:hep-ph/0509164. PASCOS2005.
[Okamura:2005mi]
[9-66]
Degeneracy and strategies of long baseline and reactor experiments, Osamu Yasuda, Nucl. Phys. Proc. Suppl. 149 (2005) 170, arXiv:hep-ph/0412405. Sixth International Workshop on Neutrino Factories and Superbeams (NuFact 04), Osaka, Japan, 26 Jul - 1 Aug 2004.
[Yasuda:2004du]
[9-67]
Parameter degeneracies and new plots in neutrino oscillations, Osamu Yasuda, Nucl. Phys. Proc. Suppl. 143 (2005) 528-528, arXiv:hep-ph/0412404. 21st International Conference on Neutrino Physics and Astrophysics (Neutrino 2004), Paris, France, 14-19 June 2004.
[Yasuda:2004dt]
[9-68]
Combined potential of future long-baseline and reactor experiments, P. Huber et al., Nucl. Phys. Proc. Suppl. 145 (2005) 190, arXiv:hep-ph/0412133. NOW2004 workshop, Conca Specchiulla (Otranto, Italy), 11-17 Sept. 2004.
[Huber:2004dv]
[9-69]
Three-flavor analysis of long-baseline experiments, Walter Winter, Nucl. Phys. Proc. Suppl. 149 (2005) 188, arXiv:hep-ph/0410354. Sixth International Workshop on Neutrino Factories and Superbeams, July 26-Aug 1, 2004, Osaka, Japan.
[Winter:2004hc]
[9-70]
Global Analysis of Neutrino Oscillation, Srubabati Goswami, Abhijit Bandyopadhyay, Sandhya Choubey, Nucl. Phys. Proc. Suppl. 143 (2005) 121, arXiv:hep-ph/0409224. 21st International Conference on Neutrino Physics and Astrophysics (Neutrino 2004), Paris, France, 14-19 June 2004.
[Goswami:2004ya]
[9-71]
Towards exploring $U_{e3}$, Osamu Yasuda, arXiv:hep-ph/0405222, 2004. 5th Workshop on Neutrino Oscillations and their Origin (NOON2004), Odaiba, Tokyo, Japan, 11-15 Feb 2004.
[Yasuda:2004tw]
[9-72]
Muon spectra of Quasi-Elastic and 1-pion production events at the KEK LBL neutrino oscillation experiment, Ji-Young Yu, E. A. Paschos, D. P. Roy, I. Schienbein, J. Korean Phys. Soc. 45 (2004) S335, arXiv:hep-ph/0312123. ICFP03, October, 2003, Seoul/Korea.
[Yu:2003py]
[9-73]
Long Baseline Neutrino Oscillations: Parameter Degeneracies and JHF/NuMI Complementarity, Hisakazu Minakata, Hiroshi Nunokawa, Stephen Parke, arXiv:hep-ph/0310023, 2003. NOON 2003.
[Minakata:2003ma]
[9-74]
Resolving degeneracies for different values of $\theta_{13}$, Walter Winter, Aip Conf. Proc. 721 (2004) 227, arXiv:hep-ph/0308227. 5th International Workshop on Neutrino Factories and Superbeams, 5-11 June 2003, Columbia University, New York.
[Winter:2003st]
[9-75]
Parameter degeneracy and reactor experiments, Osamu Yasuda, arXiv:hep-ph/0305295, 2003. 4th Workshop on Neutrino Oscillations and their Origin (NOON2003), Kanazawa, Japan, 10-14 Feb 2003.
[Yasuda:2003qg]
[9-76]
Solar and reactor neutrino analysis: Results and desiderata, E. Lisi, 2003. 4th Workshop on 'Neutrino Oscillations and their Origin' (NOON2003), February 10-14, 2003, Ishikawa Kousei Nenkin Kaikan, Kanazawa, Japan. http://www-sk.icrr.u-tokyo.ac.jp/noon2003/transparencies/10/Lisi.pdf.
[Lisi:NOON2003]
[9-77]
Implications of the JHF-Kamioka neutrino oscillation experiment, R. R. Volkas, arXiv:hep-ph/0211307, 2002. Workshop on Physics at the Japan Hadron Facility (JHF), Adelaide, 14-21 March 2002.
From the article: While MiniBooNE can only provide INDIRECT evidence for the existence of sterile neutrinos, the ability of experiments such as JHF-Kamioka to perform neutral current measurements and thus potentially discover sterile neutrinos DIRECTLY is very welcome. The discovery of sterile neutrinos would be roughly as important as the discovery of $c$, $\tau$ and $b$ in the 1970's.
[Volkas:2002vk]
[9-78]
CP, T and CPT violation in future long baseline experiments, Patrick Huber, J. Phys. G29 (2003) 1853, arXiv:hep-ph/0210140. NUFACT02, London, 1-6 July, 2002.
[Huber:2002uy]
[9-79]
The $\nu_e \to \nu_\tau$ channel as a tool to solve ambiguities, A. Donini, D. Meloni, P. Migliozzi, J. Phys. G29 (2003) 1865, arXiv:hep-ph/0209240. NuFact02, London 1-6 July 2002.
[Donini:2002cn]
[9-80]
The effects of matter density uncertainties on neutrino oscillations in the Earth, Walter Winter Bjorn Jacobsson, Tommy Ohlsson, Hakan Snellman, J. Phys. G29 (2003) 1873, arXiv:hep-ph/0209147. NuFact'02 Workshop, London, 1-6 July, 2002.
[Jacobsson:2002nb]
[9-81]
From Atmospheric Neutrinos to Accelerator Neutrinos, P. Lipari, 2002. Workshop Neutrinos to Gran Sasso, Padua University, 25 march 2002. http://www.pd.infn.it/~laveder/cngspd/trasparenze/Lipari.pdf.
[Lipari-Padova2002]

10 - Neutrino Flux

[10-1]
A Precise Determination of (Anti)neutrino Fluxes with (Anti)neutrino-Hydrogen Interactions, H. Duyang, B. Guo, S.R. Mishra, R. Petti, Phys.Lett. B795 (2019) 424-431, arXiv:1902.09480.
[Duyang:2019prb]
[10-2]
Neutrino Flux Predictions for the NuMI Beam, L. Aliaga et al. (MINERvA), Phys. Rev. D94 (2016) 092005, arXiv:1607.00704.
[MINERvA:2016iqn]
[10-3]
Optimization of neutrino fluxes for future long baseline neutrino oscillation experiments, M. Calviani, S. Di Luise, V. Galymov, P. Velten, Nucl.Part.Phys.Proc. 273-275 (2016) 2681-2683, arXiv:1411.2418.
[Calviani:2014cxa]
[10-4]
The T2K Neutrino Flux Prediction, K. Abe et al. (T2K), Phys. Rev. D87 (2013) 012001, arXiv:1211.0469.
[T2K:2012bge]
[10-5]
Methods to Determine Neutrino Flux at Low Energies: Investigation of the Low $nu$ Method, A. Bodek, U. Sarica, D. Naples, L. Ren, Eur. Phys. J. C72 (2012) 1973, arXiv:1201.3025.
[Bodek:2012uu]
[10-6]
Improved Parameterization of $K^+$ Production at Low Energy Using Feynman Scaling, C. Mariani, G. Cheng, J.M. Conrad, M.H. Shaevitz, Phys. Rev. D84 (2011) 114021, arXiv:1110.0417.
[Mariani:2011zd]
[10-7]
Neutrino tagging through secondary beam scraping, L. Ludovici, F. Terranova, Eur. Phys. J. C69 (2010) 331-339, arXiv:1004.2904.
[Ludovici:2010ci]
[10-8]
First Measurement of $\nu_\mu$ and $\nu_e$ Events in an Off-Axis Horn-Focused Neutrino Beam, P. Adamson et al. (MiniBooNE/Minos), Phys. Rev. Lett. 102 (2009) 211801, arXiv:0809.2447.
[MiniBooNE:2008hnl]
[10-9]
The Neutrino Flux prediction at MiniBooNE, A. A. Aguilar-Arevalo et al. (MiniBooNE), Phys. Rev. D79 (2009) 072002, arXiv:0806.1449.
[MiniBooNE:2008hfu]

11 - Beam

[11-1]
NuTag: proof-of-concept study for a long-baseline neutrino beam, Anna Baratto-Roldan, Mathieu Perrin-Terrin, Elisabetta Giulia Parozzi, Marc Andre Jebramcik, Nikolaos Charitonidis, arXiv:2401.17068, 2024.
[Baratto-Roldan:2024bxk]
[11-2]
Novel Approaches to High-Power Proton Beams, Jeffrey Eldred, PoS NuFact2019 (2020) 055, arXiv:2001.05576.
[Eldred:2020yod]
[11-3]
J-PARC Neutrino Beamline Upgrade Technical Design Report, K. Abe et al., arXiv:1908.05141, 2019.
[T2K:2019eao]
[11-4]
Measurements and calculations of air activation in the NuMI neutrino production facility at Fermilab with the 120-GeV proton beam on target, I.L. Rakhno et al., Nucl.Instrum.Meth. B414 (2018) 4-10, arXiv:1712.00068.
[Rakhno:2017ypu]
[11-5]
Installation status of the electron beam profiler for the Fermilab Main Injector, R. Thurman-Keup et al., arXiv:1511.02132, 2015.
[Thurman-Keup:2015gbl]
[11-6]
The NuMI Neutrino Beam, P. Adamson et al., Nucl. Instrum. Meth. A806 (2016) 279-306, arXiv:1507.06690.
[Adamson:2015dkw]
[11-7]
Large-angle scattering of multi-GeV muons on thin Lead targets, A. Longhin, A. Paoloni, F. Pupilli, IEEE Trans.Nucl.Sci. 62 (2015) 2216, arXiv:1506.08759.
[Longhin:2015dsa]
[11-8]
Long Baseline Neutrino Experiment Target Material Radiation Damage Studies Using Energetic Protons of the Brookhaven Linear Isotope Production (BLIP) Facility, N. Simos, J.O. Conor, P. Hurh, N. Mokhov, Z. Kotsina, arXiv:1408.6429, 2014.
[Simos:2012riw]
[11-9]
Improved Parameterization of $K^+$ Production at Low Energy Using Feynman Scaling, C. Mariani, G. Cheng, J.M. Conrad, M.H. Shaevitz, Phys. Rev. D84 (2011) 114021, arXiv:1110.0417.
[Mariani:2011zd]
[11-10]
Pion productions by proton and Helium-3 on Au197 target at beam energies of 2.8, 5, 10 and 16.587 GeV/nucleon, Gao-Chan Yong, Xurong Chen, Hu-Shan Xu, Wei Zuo, Phys. Rev. C85 (2012) 024911, arXiv:1106.6108.
[Yong:2011vj]
[11-11]
Neutrino tagging through secondary beam scraping, L. Ludovici, F. Terranova, Eur. Phys. J. C69 (2010) 331-339, arXiv:1004.2904.
[Ludovici:2010ci]
[11-12]
First Measurement of $\nu_\mu$ and $\nu_e$ Events in an Off-Axis Horn-Focused Neutrino Beam, P. Adamson et al. (MiniBooNE/Minos), Phys. Rev. Lett. 102 (2009) 211801, arXiv:0809.2447.
[MiniBooNE:2008hnl]
[11-13]
Monochromatic neutrino beams, J. Bernabeu, J. Burguet-Castell, C. Espinoza, M. Lindroos, JHEP 0512 (2005) 014, arXiv:hep-ph/0505054.
[Bernabeu:2005jh]
[11-14]
Monoenergetic Neutrino Beam for Long Baseline Experiments, Joe Sato, Phys. Rev. Lett. 95 (2005) 131804, arXiv:hep-ph/0503144.
[Sato:2005ma]
[11-15]
A Neutrino Horn Based on a Solenoid Lens, K.T. McDonald, arXiv:physics/0312022, 2003.
[McDonald:2003wz]
[11-16]
Beam Tests of Ionization Chambers for the NuMI Neutrino Beam, R. M. Zwaska et al., Ieee Trans. Nucl. Sci. 50 (2003) 1129, arXiv:hep-ex/0212011.
[Zwaska:2002mr]
[11-17]
The Hadron Hose: Continuous Toroidal Focusing for Conventional Neutrino Beams, J. Hylen et al., Nucl. Instrum. Meth. A498 (2003) 29, arXiv:hep-ex/0210051.
[Hylen:2002uc]
[11-18]
Proton driver optimization for new generation neutrino superbeams to search for sub-leading nu/mu - > nu/e oscillations (theta(13) angle), A. Ferrari, A. Rubbia, C. Rubbia, P. Sala, New J. Phys. 4 (2002) 88, arXiv:hep-ph/0208047.
[Ferrari:2002yj]
[11-19]
Ionization chambers for monitoring in high-intensity neutrino beams, J. McDonald et al., Nucl.Instrum.Meth. A496 (2003) 293-304, arXiv:physics/0205042.
[McDonald:2003fi]
[11-20]
An off-axis neutrino beam, Kirk T McDonald, arXiv:hep-ex/0111033, 2001.
[McDonald:2001mc]
[11-21]
Neutrino oscillations experiments using off-axis NuMI beam, A. Para, M. Szleper, arXiv:hep-ex/0110032, 2001.
[Para:2001cu]
[11-22]
Neutrino spectrum at the far detector: Systematic errors, M. Szleper, A. Para, arXiv:hep-ex/0110001, 2001.
[Szleper:2001nj]

12 - Beam - Talks

[12-1]
Target Multiwire for the Fermilab Booster Neutrino Beamline, R. Prokop, arXiv:2401.17379, 2024. IBIC 2023.
[Prokop:2024yws]
[12-2]
J-PARC Neutrino Beamline and 1.3 MW Upgrade, Yuichi Oyama, PoS NuFact2019 (2020) 054, arXiv:2004.06877. The 21st International Workshop on Neutrinos From Accelerator (NuFact2019), Daegu, Korea, August 26-31, 2019.
[Oyama:2020kev]
[12-3]
Neutrinos from PIon Beam Line, nuPIL, J. B. Lagrange, J. Pasternak, A. Bross, A. Liu, 2016. 17th International Workshop on Neutrino Factories and Future Neutrino Facilities Search (NuFact15) Rio de Janeiro, Brazil, August 10-15, 2015.
[Lagrange:2015jyv]
[12-4]
The CNGS Neutrino Beam, G. Giacomelli, J. Phys. Conf. Ser. 116 (2008) 012004, arXiv:physics/0703247. 2nd Latin American School on Cosmic Rays and Astrophysics, Puebla, Mexico, 30th August - 8th September 2006.
[Giacomelli:2007df]
[12-5]
The NuMI Neutrino Beam at Fermilab, Sacha E. Kopp, Aip Conf. Proc. 773 (2005) 276, arXiv:hep-ex/0412052. ICFA Workshop on High Intensity Hadron Beams (HB2004), Bensheim, Germany, 18-22 October, 2004.
[Kopp:2004sc]
[12-6]
Ion Chambers for Monitoring the NuMI Neutrino Beam at FNAL, D.Indurthy et al., Aip Conf. Proc. 732 (2004) 332, arXiv:physics/0405022. 11th Beam Instrumentation Workshop, Oak Ridge, TN.
[Indurthy:2004ri]
[12-7]
Profile Monitor SEM's for the NuMI Beam at FNAL, D.Indurthy, S.Kopp, Z.Pavlovich, M.Proga, Aip Conf. Proc. 732 (2004) 341, arXiv:physics/0405021. 11th Beam Instrumentation Workshop, Oak Ridge, TN.
[Indurthy:2004rh]
[12-8]
Physics Reach of the Beta Beam, Mauro Mezzetto, J. Phys. G29 (2003) 1771, arXiv:hep-ex/0302007. Nufact02 Workshop, Imperial College of Science, Technology and Medicine, London, July 2002.
[Mezzetto:2003ub]
[12-9]
Physics Potential of the SPL Super Beam, M. Mezzetto, J. Phys. G29 (2003) 1781, arXiv:hep-ex/0302005. Nufact02 Workshop, Imperial College of Science, Technology and Medicine, London, July 2002.
[Mezzetto:2003mm]
[12-10]
Measuring the CP-Violating Phase by a Long Baseline Neutrino Experiment with Hyper-Kamiokande, N. Okamura, Nucl. Phys. Proc. Suppl. 118 (2003) 470, arXiv:hep-ph/0209123. Neutrino 2002, Munich, Germany, May 25-30, 2002, and YITP workshop, Kyoto, Japan, July 8-11, 2002.
[Okamura:2002pb]
[12-11]
Possibility of the LBL experiment with the high intensity proton accelerator, N. Okamura, Nucl. Instrum. Meth. A503 (2001) 215, arXiv:hep-ph/0204118. NuFACT'01 Workshop, Tsukuba, Japan, May 2001.
[Okamura:2001fax]
[12-12]
Beam line for CNGS and CERN to Golf of Taranto, B. Autin, 2002. Fourth NuFact '02 Workshop on Neutrino Factories based on Muon Storage Rings, Imperial College, London, 1-6 July 2002. http://www.hep.ph.ic.ac.uk/NuFact02/Scientific-programme/files/Tuesday/wg1and2/A04_autin.ppt.
[Autin-talk:2002a]
[12-13]
JHF2K beamline, A. Ichikawa, 2002. Fourth NuFact '02 Workshop on Neutrino Factories based on Muon Storage Rings, Imperial College, London, 1-6 July 2002. http://www.hep.ph.ic.ac.uk/NuFact02/Scientific-programme/files/Tuesday/wg1and2/A03_ichikawa.ppt.
[Ichikawa-talk:2002a]
[12-14]
1 MW neutrino beam facility at Brookhaven, S. Kahn, 2002. Fourth NuFact '02 Workshop on Neutrino Factories based on Muon Storage Rings, Imperial College, London, 1-6 July 2002. http://www.hep.ph.ic.ac.uk/NuFact02/Scientific-programme/files/Tuesday/wg1and2/A02_kahn.ppt.
[Kahn-talk:2002a]
[12-15]
CNGS, S. Katsanevas, 2002. XXth International Conference on Neutrino Physics and Astrophysics May 25 - 30, 2002, Munich, Germany. http://neutrino2002.ph.tum.de/pages/transparencies/katsanevas.
[Katsanevas-talk:2002a]
[12-16]
NUMI beamline - Now and Future Upgrades, S. Kopp, 2002. Fourth NuFact '02 Workshop on Neutrino Factories based on Muon Storage Rings, Imperial College, London, 1-6 July 2002. http://www.hep.ph.ic.ac.uk/NuFact02/Scientific-programme/files/Tuesday/wg1and2/kopp.ppt.
[Kopp-talk:2002a]

13 - Detection Cross Sections

[13-1]
Uncertainties on the $\nu_{\mu}$/$\nu_{e}$, $\bar{\nu}_{\mu}$/$\bar{\nu}_{e}$ and $\nu_{e}$/$\bar{\nu}_{e}$ cross-section ratio from the modelling of nuclear effects and their impact on neutrino oscillation experiments, T. Dieminger, S. Dolan, D. Sgalaberna, A. Nikolakopoulos, T. Dealtry, S. Bolognesi, L. Pickering, A. Rubbia, Phys.Rev.D 108 (2023) L031301, arXiv:2301.08065.
[Dieminger:2023oin]
[13-2]
Energy reconstruction in quasielastic scattering in the MiniBooNE and T2K experiments, O. Lalakulich, U. Mosel, Phys. Rev. C86 (2012) 054606, arXiv:1208.3678.
[Lalakulich:2012hs]
[13-3]
Neutrino-nucleus interactions in the T2K experiment, T. Leitner, U. Mosel, Phys. Rev. C82 (2010) 035503, arXiv:1006.2714.
[Leitner:2010jv]
[13-4]
Quasi-elastic neutrino charged-current scattering cross sections on oxygen, A. V. Butkevich, S. A. Kulagin, Phys. Rev. C76 (2007) 045502, arXiv:0705.1051.
[Butkevich:2007gm]
[13-5]
Charged current neutrino induced coherent pion production, L. Alvarez-Ruso, L. S. Geng, S. Hirenzaki, M. J. Vicente Vacas, Phys. Rev. C75 (2007) 055501, arXiv:nucl-th/0701098.
[Alvarez-Ruso:2007rcg]
[13-6]
Neutrino Induced Coherent Pion Production at K2K and MiniBooNE, S. K. Singh, M. Sajjad Athar, Shakeb Ahmad, Phys. Rev. Lett. 96 (2006) 241801, arXiv:nucl-th/0601045.
[Singh:2006br]
[13-7]
Electron- and neutrino-nucleus scattering in the impulse approximation regime, Omar Benhar et al., Phys. Rev. D72 (2005) 053005, arXiv:hep-ph/0506116.
[Benhar:2005dj]
[13-8]
Local density and the RPA corrections in charge current quasielastic neutrino on oxygen, argon and iron scattering, Krzysztof M. Graczyk, arXiv:nucl-th/0401053, 2004.
[Graczyk:2004vv]
[13-9]
Low energy neutrino cross sections: Comparison of various Monte Carlo predictions to experimental data, G. P. Zeller, arXiv:hep-ex/0312061, 2003.
[Zeller:2003ey]

14 - Detection Cross Sections - Talks

[14-1]
Strange particle production at low and intermediate energies, M. Rafi Alam, I.Ruiz Simo, M.Sajjad Athar, M. J. Vicente Vacas, AIP Conf. Proc. 1405 (2011) 152-157, arXiv:1108.2565. 7th International Workshop on Neutrino-Nucleus interactions in the few GeV region: Nuint11, Dehradun, India 7-11 March 2011.
[RafiAlam:2011cja]
[14-2]
Nuclear Effects in Generators: the Path Forward, Ulrich Mosel, AIP Conf. Proc. 1405 (2011) 368-373, arXiv:1108.1692. NuInt11, Dehradun, India, March 2011.
[Mosel:2011ey]
[14-3]
Neutrino Cross Section Measurements for Long-Baseline Accelerator-based Neutrino Oscillation Experiments, Teppei Katori, arXiv:0805.2476, 2008. XLIIIrd Rencontres de Moriond on Electroweak Interactions and Unified Theories, La Thuile, Italy, March 1-8, 2008.
[Katori:2008hn]
[14-4]
Why understanding neutrino interactions is important for oscillation physics, C.W. Walter, AIP Conf. Proc. 967 (2007) 3-8, arXiv:0709.3616. Fifth International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt07), May 30-June 2, 2007.
[Walter:2007wf]
[14-5]
Neutrino-induced coherent pion production, L. Alvarez-Ruso et al., AIP Conf. Proc. 967 (2007) 201-204, arXiv:0709.3019. 5th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt07).
[Alvarez-Ruso:2007yjw]
[14-6]
The NuMI Beam at FNAL and its use for Cross Section Measurements, Sacha E. Kopp, arXiv:0709.2737, 2007. Fifth International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt07), May 30 - June 2, 2007.
[Kopp:2007iq]
[14-7]
Hadronic Interaction Modelling in MINOS, Michael Kordosky (MINOS), AIP Conf. Proc. 896 (2007) 185-194, arXiv:hep-ex/0701009. Hadronic Shower Simulation Workshop, FNAL, September 2006.
[Kordosky:2007tu]
[14-8]
Neutrino oscillation studies and the neutrino cross section, Paolo Lipari, Nucl. Phys. Proc. Suppl. 112 (2002) 274-287, arXiv:hep-ph/0207172. 1st workshop on neutrino-nucleus interactions in the few GeV region (NuInt01), Tsukuba, Japan, 13-16 Dec 2001.
[Lipari:2002at]

15 - Detector

[15-1]
The Design and Construction of the Chips Water Cherenkov Neutrino Detector, B. Alonso Rancurel et al., arXiv:2401.11728, 2024.
[Rancurel:2024png]
[15-2]
Simulation of deflection uncertainties on directional reconstructions of muons using PROPOSAL, Pascal Gutjahr et al., Eur. Phys. J. C 82 (2022) 1143, arXiv:2208.11902. [Erratum: Eur.Phys.J.C 83, 12 (2023)].
[Gutjahr:2022quk]
[15-3]
Simulating the Hyper-Kamiokande Detectors, Srikanta Sinha, arXiv:1809.10674, 2018.
[Sinha:2018clx]
[15-4]
A Factor of Four Increase in Attenuation Length of Dipped Lightguides for Liquid Argon TPCs Through Improved Coating, Z. Moss et al., arXiv:1604.03103, 2016.
[Moss:2016yhb]
[15-5]
Muon-Induced Background Study for an Argon-Based Long Baseline Neutrino Experiment, D. Barker, D.-M. Mei, C. Zhang, Phys. Rev. D86 (2012) 054001, arXiv:1202.5000.
[Barker:2012nb]
[15-6]
Background Study on $\nu_e$ Appearance from a $\nu_\mu$ Beam in Very Long Baseline Neutrino Oscillation Experiments with a Large Water Cherenkov Detector, Chiaki Yanagisawa, Chang Kee Jung, Trung Le, Brett Viren, Phys. Rev. D83 (2011) 072002, arXiv:1008.1019.
[Yanagisawa:2010qi]
[15-7]
Performance Of A Liquid Argon Time Projection Chamber Exposed To The WANF Neutrino Beam, F. Arneodo et al. (ICARUS-Milano), Phys. Rev. D74 (2006) 112001, arXiv:physics/0609205.
[ICARUS-Milano:2006abw]
[15-8]
Statistical Pattern Recognition: Application to \nu_{\mu}\to\nu_{\tau} Oscillation Searches Based on Kinematic Criteria, A. Bueno, A. Martinez de la Ossa, S. Navas, A. Rubbia, JHEP 0411 (2004) 014, arXiv:hep-ph/0407013.
[Bueno:2004ty]
[15-9]
Physics Chapter: NUSEL-Homestake Science Book, C. Aalseth et al. (Homestake), arXiv:nucl-ex/0308018, 2003.
[Homestake:2003aa]
[15-10]
Modeling skin effect in large magnetized iron detectors, M. Incurvati, F. Terranova, Nucl. Instrum. Meth. A500 (2003) 441, arXiv:hep-ex/0301015.
[Incurvati:2003cq]
[15-11]
A non-QE signature of $\nu_e$ appearance in a water Cherenkov detector, A. Asratyan, V. Verebryusov, arXiv:hep-ex/0207094, 2002.
[Asratyan:2002yh]
[15-12]
Mini-LANNDD: A very sensitive neutrino detector to measure $sin^2 2\theta_{13}$, David B. Cline, Stanislaw Otwinowski, Franco Sergiampietri, J. Phys. G29 (2003) 1893, arXiv:astro-ph/0206124.
[Cline:2002px]
[15-13]
The HLMA project: Determination of high $\Delta{m}^2$ LMA mixing parameters and constraint on $|U_{e3}|$ with a new reactor neutrino experiment, Lothar Oberauer Stefan Schoenert, Thierry Lasserre, Astropart. Phys. 18 (2003) 565, arXiv:hep-ex/0203013.
[Schonert:2002ep]
[15-14]
Lead perchlorate as a neutrino detection medium, M. K. Bacrania et al., Nucl. Instrum. Meth. A492 (2002) 43-48, arXiv:nucl-ex/0202013.
[Bacrania:2002jq]

16 - Detector - Talks

[16-1]
The WA105-3x1x1 m3 dual phase LAr-TPC demonstrator, Sebastien Murphy (WA105), PoS ICHEP2016 (2016) 305, arXiv:1611.05846.
[Murphy:2016ged]
[16-2]
The liquid Argon TPC: a powerful detector for future neutrino experiments and proton decay searches, A. Ereditato, A. Rubbia, Nucl. Phys. Proc. Suppl. 154 (2006) 163, arXiv:hep-ph/0509022. High Intensity Physics HIF05, La Biodola, Isola d'Elba (Italy), June 2005.
[Ereditato:2005ru]
[16-3]
Detectors for New Neutrino Experiments, Maury Goodman, arXiv:hep-ex/0403019, 2004. 8th ICATPP Conference on Astroparticle, Particle, Space Physics, Detectors and Medical Physics Applications.
[Goodman:2004tt]
[16-4]
A European Megaton Project at Frejus, L. Mosca, 2003. TAUP 2003. http://mocha.phys.washington.edu/~int_talk/WorkShops/TAUP03/Parallel/People/Mosca_L.
[Mosca-TAUP03]
[16-5]
Status of ICARUS, Javier Rico (ICARUS), arXiv:hep-ex/0205028, 2002. Prepared for the XXXVII Rencontres de Moriond (Electroweak Interactions and Unified Theories), March 9-16, 2002. Les Arcs (France).
[Rico:2002mh]
[16-6]
MINOS and the future of Neutrino Oscillations, M. Diwan (MINOS), 2002. DOE - 2002. http://minos.phy.bnl.gov/nwg/papers/diwan-doe-2002.ps.
[Diwan-DOE-2002]
[16-7]
UNO: Underground Nucleon Decay and Neutrino Observatory, C. McGrew, 2002. Talk given at the International Workshop on Neutrinos and Subterranean Science - NeSS 02, Washington, DC, September 19-21, 2002. http://mocha.phys.washington.edu/~int_talk/WorkShops/Neutrino02/Working_Groups/People/McGrew_C/mcgrew_thurs_protondecaywg.pdf.
[McGrew-talk:2002b]
[16-8]
Next generation water Cherenkov Detectors, K. Nakamura, 2002. Conference on Neutrinos and Implications for Physics Beyond the Standard Model, Stony Brook, Oct. 11-13, 2002. http://insti.physics.sunysb.edu/itp/conf/neutrino/talks/nakamura.pdf.
[Nakamura-talk:2002b]

17 - Theory - Neutrino Oscillations

[17-1]
Constant matter neutrino oscillations in a parametrization-free formulation, L. J. Flores, O. G. Miranda, Phys. Rev. D93 (2016) 033009, arXiv:1511.03343.
[Flores:2015mah]
[17-2]
Why Is The Neutrino Oscillation Formula Expanded In $\Delta m_{21}^{2}/\Delta m_{31}^{2}$ Still Accurate Near The Solar Resonance In Matter?, Xun-Jie Xu, JHEP 10 (2015) 090, arXiv:1502.02503.
[Xu:2015kma]
[17-3]
Oscillations of high energy neutrinos in matter: Precise formalism and parametric resonance, E. Kh. Akhmedov, M. Maltoni, A. Yu. Smirnov, Phys. Rev. Lett. 95 (2005) 211801, arXiv:hep-ph/0506064.
[Akhmedov:2005yj]

18 - Future Experiments

[18-1]
Neutron detection and application with a novel 3D-projection scintillator tracker in the future long-baseline neutrino oscillation experiments, S. Gwon et al., Phys.Rev.D 107 (2023) 032012, arXiv:2211.17037.
[Gwon:2022bix]
[18-2]
A measurement of proton-carbon forward scattering in a proof-of-principle test of the EMPHATIC spectrometer, M. Pavin et al., Phys.Rev.D 106 (2022) 112008, arXiv:2106.15723.
[EMPHATIC:2021num]
[18-3]
A High Pressure Time Projection Chamber with Optical Readout, Alexander Deisting et al., Instruments 5 (2021) 22, arXiv:2102.06643.
[Deisting:2021htu]
[18-4]
Neutrino interaction classification with a convolutional neural network in the DUNE far detector, B. Abi et al. (DUNE), Phys.Rev. D102 (year) 092003, arXiv:2006.15052.
[DUNE:2020gpm]
[18-5]
Physics Briefing Book, Richard Keith Ellis et al., arXiv:1910.11775, 2019.
[EuropeanStrategyforParticlePhysicsPreparatoryGroup:2019qin]
[18-6]
White Paper on New Opportunities at the Next-Generation Neutrino Experiments (Part 1: BSM Neutrino Physics and Dark Matter), C.A. Arguelles et al., Rept.Prog.Phys. 83 (2020) 124201, arXiv:1907.08311.
[Arguelles:2019xgp]
[18-7]
Neutrino Telescope at Yemilab, Korea, Seon-Hee Seo, arXiv:1903.05368, 2019.
[Seo:2019dpr]
[18-8]
Research and Development for Near Detector Systems Towards Long Term Evolution of Ultra-precise Long-baseline Neutrino Experiments, Aysel Kayis Topaksu et al., arXiv:1901.04346, 2019.
[AlvarezRuso:2019twu]
[18-9]
Roadmap for the international, accelerator-based neutrino programme, J. Cao et al., arXiv:1704.08181, 2017.
[Cao:2017hno]
[18-10]
Advanced Scintillator Detector Concept (ASDC): A Concept Paper on the Physics Potential of Water-Based Liquid Scintillator, J. R. Alonso et al., arXiv:1409.5864, 2014.
[Alonso:2014fwf]
[18-11]
First working prototype of a steerable UV laser system for LArTPC calibrations, A. Ereditato et al., JINST 9 (2014) T11007, arXiv:1406.6400.
[Ereditato:2014lra]
[18-12]
Initial report from the ICFA Neutrino Panel, J. Cao et al., arXiv:1405.7052, 2014.
[Cao:2014zra]
[18-13]
Hadron energy resolution as a function of iron plate thickness at ICAL, Lakshmi S. Mohan et al., JINST 9 (2014) T09003, arXiv:1401.2779.
[Mohan:2014qua]
[18-14]
Status and New Ideas Regarding Liquid Argon Detectors, Alberto Marchionni, Ann.Rev.Nucl.Part.Sci. 63 (2013) 269-290, arXiv:1307.6918.
[Marchionni:2013tfa]
[18-15]
Erratum for Time Reversal in Neutrino Oscillations, Leonard S. Kisslinger, Ernest M. Henley, Mikkel B. Johnson, Int. J. Mod. Phys. E21 (2012) 12920, arXiv:1205.6430.
[Henley:2011mu]
[18-16]
Requirements for a New Detector at the South Pole Receiving an Accelerator Neutrino Beam, Jian Tang, Walter Winter, JHEP 02 (2012) 028, arXiv:1110.5908.
[Tang:2011wn]
[18-17]
Scintillator detectors with long WLS fibers and multi-pixel photodiodes, O.Mineev, Yu.Kudenko, Yu.Musienko, I.Polyansky, N.Yershov, JINST 6 (2011) P12004, arXiv:1110.2651.
[Mineev:2011xp]
[18-18]
The next-generation liquid-scintillator neutrino observatory LENA, Michael Wurm et al. (LENA), Astropart. Phys. 35 (2012) 685-732, arXiv:1104.5620.
[LENA:2011ytb]
[18-19]
Ideas for future liquid argon detectors, A. Ereditato, A. Rubbia, Nucl. Phys. Proc. Suppl. 139 (2005) 301, arXiv:hep-ph/0409143.
[Ereditato:2004ru]
[18-20]
A New Nuclear Reactor Neutrino Experiment to Measure $\theta_{13}$, K. Anderson et al., arXiv:hep-ex/0402041, 2004. White Paper Report.
[Anderson:2004pk]
[18-21]
Using Reactors to Measure $\theta_{13}$, M. H. Shaevitz, J. M. Link, arXiv:hep-ex/0306031, 2003.
[Shaevitz:2003ws]
[18-22]
The Kr2Det project: Search for mass-3 state contribution $|U_{e3}|^2$ to the electron neutrino using a one reactor - two detector oscillation experiment at Krasnoyarsk underground site, V. Martemianov, L. Mikaelyan, V. Sinev, V. Kopeikin, Yu. Kozlov, Phys. Atom. Nucl. 66 (2003) 1934, arXiv:hep-ex/0211070.
[Martemyanov:2002td]
[18-23]
Nuclear Propelled Vessels and Neutrino Oscillation Experiments, J. Detwiler, G. Gratta, N. Tolich, Y. Uchida, Phys. Rev. Lett. 89 (2002) 191802, arXiv:hep-ex/0207001.
[Detwiler:2002ym]
[18-24]
Terrestrial long baseline neutrino oscillation experiments, Robert H. Bernstein, Stephen J. Parke, Phys. Rev. D44 (1991) 2069-2078.
[Bernstein:1991ss]
[18-25]
A long baseline search for neutrino flavor oscillations, Lee Harold Lueking, 1987. RX-1174 (JOHNS-HOPKINS).
[Lueking:1987bn]
[18-26]
Future long baseline muon-neutrino $\to$ electron-neutrino oscillation searches at accelerators, Michael J. Murtagh, 1987. BNL-39668.
[Murtagh:1987xw]

19 - Future Experiments - Talks

[19-1]
Future Neutrino Facilities, D. A. Harris, arXiv:1907.02840, 2019. Flavor Physics and CP Violation Conference, Victoria BC, May 2019.
[Harris:2019jnc]
[19-2]
Future Accelerator-Based Neutrino Beams, Vladimir Shiltsev, arXiv:1906.07324, 2019. FPCP2019.
[Shiltsev:2019wav]
[19-3]
Future Opportunities in Accelerator-based Neutrino Physics, Andrea Dell'Acqua et al., arXiv:1812.06739, 2018. European Neutrino Town Meeting, Oct 22-24, CERN.
[DellAcqua:2018lky]
[19-4]
A highly granular calorimeter concept for long baseline near detectors, Lorenz Emberger, Frank Simon, J.Phys.Conf.Ser. 1162 (2019) 012033, arXiv:1810.03677. CALOR 2018.
[Emberger:2018pgr]
[19-5]
Theia: A multi-purpose water-based liquid scintillator detector, Vincent Fischer (Theia), arXiv:1809.05987, 2018. CIPANP2018.
[Fischer:2018zsr]
[19-6]
A narrow band neutrino beam with high precision flux measurements, A. Coffani et al., arXiv:1804.03248, 2018. NuPhys2017 (London, 20-22 December 2017).
[ENUBET:2018lha]
[19-7]
Pacific Neutrinos: Towards a High Precision Measurement of CP Violation ?, Claude Vallee, arXiv:1610.08655, 2016. NUFACT 2016, Quy Nhon, Vietnam, August 21-27 2016.
[Vallee:2016xde]
[19-8]
Cyclotrons as Drivers for Precision Neutrino Measurements, A. Adelmann et al., Adv.High Energy Phys. 2014 (2014) 347097, arXiv:1307.6465.
[Adelmann:2013isa]
[19-9]
Future liquid Argon detectors, A. Rubbia, Nucl. Phys. Proc. Suppl. 235-236 (2013) 190-197, arXiv:1304.0127. XXV International Conference on Neutrino Physics and Astrophysics (Neutrino 2012), Kyoto, Japan.
[Rubbia:2013tpa]
[19-10]
High Current H2+ Cyclotrons for Neutrino Physics: The IsoDAR and DAE deltaALUS Projects, Jose R. Alonso (DAEdALUS), AIP Conf.Proc. 1525 (2012) 480-486, arXiv:1210.3679. 22nd International Conference on the Application of Accelerators in Research and Industry (CAARI), Ft. Worth, TX, Aug 5-10 (2012).
[Alonso:2012zv]
[19-11]
Searching for the Neutrino Mixing Angle Theta-13 at Reactors, Maury Goodman, arXiv:0706.0512, 2007. XIIth International Workshop on Neutrino Telescopes, Venice 2007.
[Goodman:2007dk]
[19-12]
A Monochromatic Neutrino Beam for U(e3) and CP-Phase, Jose Bernabeu, Catalina Espinoza, arXiv:hep-ph/0605132, 2006. International Workshop on NO-VE: Neutrino Oscillations in Venice, 7-10 February 2006, Venice.
[Bernabeu:2006az]
[19-13]
Conceptual design of a scalable multi-kton superconducting magnetized liquid Argon TPC, A. Ereditato, A. Rubbia, Nucl. Phys. Proc. Suppl. 155 (2006) 233, arXiv:hep-ph/0510131. 7th International Workshop on Neutrino Factories and Superbeams (NUFACT05), LNF, Frascati (Rome).
[Ereditato:2005yx]
[19-14]
Neutrino detectors for future experiments, A. Rubbia, Nucl. Phys. Proc. Suppl. 147 (2005) 103, arXiv:hep-ph/0412230. High Intensity Frontier Workshop, La Biodola, Isola d'Elba, June 5-8, 2004.
[Rubbia:2004nf]
[19-15]
Plans for Experiments to Measure $\theta_{13}$, Maury Goodman, arXiv:hep-ex/0404031, 2004. 2003 Coral Gables Conference, December 2003, Fort Lauderdale Florida.
[Goodman:2003zt]
[19-16]
India-based Neutrino Observatory, G.Rajasekaran, Aip Conf. Proc. 721 (2004) 243, arXiv:hep-ph/0402246. NuFact 03, 5th International Workshop on Neutrino Factories and Superbeams, 5-11, June 2003, Columbia University, New York.
[Rajasekaran:2004wi]
[19-17]
Experiments to detect $\theta_{13}$, M. Apollonio, 2004. XVI IFAE meeting, 16-19 April 2004, Turin, Italy. http://agenda.cern.ch/askArchive.php?base=agenda&categ=a041654&id=a041654s6t6%2Ftransparencies%2FApollonio.pdf. http://www.ph.unito.it/ifae/Proceedings/Sessioni/Neutrinos.pdf.
[Apollonio:IFAE2004]
[19-18]
Perspectives for future neutrino oscillation experiments with accelerators: beams, detectors and physics, Pasquale Migliozzi, arXiv:hep-ph/0311269, 2003.
[Migliozzi:2003be]
[19-19]
New Projects in Underground Physics, Maury Goodman, arXiv:hep-ex/0307017, 2003. 10th International Workshop on Neutrino Telescopes, Venice, March 2003.
[Goodman:2003qq]
[19-20]
Future experiments with Neutrino Superbeams, Betabeams, and Factories, D. Harris, 2003. XXI International Symposium on Lepton Photon 2003, 11-16 August 2003, Fermi National Accelerator Laboratory, Batavia, Illinois USA. http://conferences.fnal.gov/lp2003/program/S12/harris_s12.pdf.
[Harris:LP03]
[19-21]
Future neutrino oscillations, M. Mezzetto, 2003. XXXVIII Rencontres de Moriond Electroweak Interactions and Unified Theories Les Arcs, France, 15-22 March 2003. http://moriond.in2p3.fr/EW/2003/Transparencies/2_Monday/2_2_afternoon/2_2_1_Mezzetto/M_Mezzetto.pdf.
[Mezzetto:Moriond03]
[19-22]
Next generation long baseline experiments on the path to leptonic CP violation, F. Terranova, 2003. HEP2003, 17-23 July 2003, Aachen, Germany. http://eps2003.physik.rwth-aachen.de/data/talks/parallel/07Neutrino/07Terranova.pdf.
[Terranova:EPS2003]
[19-23]
Prospects to measure neutrino oscillation pattern with very large area underground detector at very long baselines, V. Ammosov et al., arXiv:hep-ph/0205300, 2002. 20th International Conference on Neutrino Physics and Astrophysics (Neutrino 2002), Munich, Germany, 25-30 May 200.
[Ammosov:2002wi]
[19-24]
Solar and Reactor Neutrinos: Upcoming Experiments and Future Projects, Stefan Schonert, Nucl. Phys. Proc. Suppl. 110 (2002) 277-287, arXiv:hep-ex/0202021. 'TAUP2001 - Topics in Astroparticle and Underground Physics', LNGS, Italy (September 8-12, 2001). http://taup2001.lngs.infn.it/l3/l3.pdf.
[Schonert:2002ft]
[19-25]
The measurement of $\theta_{13}$, P. Huber, 2002. Workshop on New Initiatives for the NuMI Neutrino Beam Fermi National Accelerator Laboratory, May 2-4, 2002. http://www-numi.fnal.gov/fnal_minos/new_initiatives/transparencies/huber.ps.
[Huber-talk:2002a]
[19-26]
Next Step in Neutrino Oscillation Experiments, A. Para, 2002. MINOS collaboration meeting, 11 Jan 2002. http://minos.phy.bnl.gov/nwg/adam-para-20020111-Next_step.ps.gz.
[Para-talk:2002a]
[19-27]
Long baseline neutrino oscillations projects, A. Rubbia, Nucl. Phys. Proc. Suppl. 81 (2000) 153-166.
[Rubbia:2000mj]
[19-28]
Long baseline accelerator neutrino experiments: Present and future, A. Rubbia, Acta Phys. Polon. B31 (2000) 1287-1311.
[Rubbia:2000ry]
[19-29]
Neutrino physics during the next decade: Accelerator and atmospheric neutrino experiments, S. Wojcicki, Nucl. Instrum. Meth. A451 (2000) 96-101.
[Wojcicki:2000vx]
[19-30]
Long baseline neutrino oscillations, K. Zuber, arXiv:hep-ex/9810022, 1998.
[Zuber:1998yv]
[19-31]
Long base-line neutrino oscillation beams and experiments, S. Katsanevas, 1995. In 'Les Arcs 1995, Electroweak interactions, unified theories' 481-489.
[Katsanevas:1995ve]
[19-32]
Plans for long baseline neutrino oscillation experiments, D. Michael, Nucl. Phys. Proc. Suppl. 40 (1995) 109-119.
[Michael:1995cq]
[19-33]
Atmospheric neutrinos and long baseline neutrino oscillation experiments, B. C. Barish, 1994. 18th Johns Hopkins Workshop on Current Problems in Particle Theory: Theory Meets Experiment, Florence, Italy, 31 Aug - 2 Sep 1994.
[Barish:1994sj]
[19-34]
Long-baseline neutrino oscillation experiments, Dan Crane, Maury Goodman, 1994. 1994 DPF Summer Study on High Energy Physics: Particle and Nuclear Astrophysics and Cosmology in the Next Millenium (Snowmass 94), Snowmass, CO, 29 June - 14 Jul 1994.
[Crane:1994cj]
[19-35]
Overview of accelerator long baseline neutrino oscillation experiments, Stephen Parke, arXiv:hep-ph/9304271, 1993.
[Parke:1993dp]
[19-36]
Long baseline searches for neutrino oscillations, Stephen J. Parke, 1992. Int. Conf. on Fluid Mechanics and Theoretical Physics in honor of Professor Pei-Yuan Chou's 90th Anniversary, Beijing, China, June 1-4, 1992.
[Parke:1992jr]
[19-37]
Prospects for long baseline neutrino oscillation experiments, Maury Goodman, 1991. Workshop on Long Baseline Neutrino Oscillations, Batavia, IL, Nov 17-20, 1991.
[Goodman:1991fx]
[19-38]
Long baseline neutrino oscillations, Stephen J. Parke, 1991. 15th Johns Hopkins Workshop, Baltimore, MD, Aug 26-28, 1991.
[Parke:1991gn]
[19-39]
Long baseline searches for neutrino oscillations, Stephen J. Parke, Conf.Proc. C910725V1 (1991) 631-634. Joint Int. Lepton-Photon Symp. and Europhysics Conf. on High Energy Physics, Geneva, Switzerland, Jul 25 - Aug 1, 1991.
[Parke:1991gt]
[19-40]
Summary report on long baseline neutrino oscillation, M. Koshiba, 1989. In 'Batavia 1989, Proceedings, Physics at the Main Injector' 139-145. (see Conference Index).
[Koshiba:1989iy]
[19-41]
A LONG BASELINE NEUTRINO OSCILLATION EXPERIMENT SENSITIVE TO MASS DIFFERENCES OF HUNDREDTHS OF AN ELECTRON VOLT, B. Cortez, L. R. Sulak, Ettore Majorana Int.Sci.Ser.Phys.Sci. 7 (1980) 661. Europhysics Workshop on Grand Unification, Erice, Sicily, Mar 17-24, 1980, and to be publ. in Proc.
[Cortez:1980zc]

20 - Future Experiments - China

[20-1]
Feasibility study of a future accelerator neutrino experiment in China, Jian Tang, Sampsa Vihonen, Yu Xu, Commun.Theor.Phys. 74 (2022) 035201, arXiv:2108.11107.
[Tang:2021lyn]
[20-2]
Neutrino Physics with JUNO, Fengpeng An et al. (JUNO), J. Phys. G43 (2016) 030401, arXiv:1507.05613.
[JUNO:2015zny]
[20-3]
MOMENT: a muon-decay medium-baseline neutrino beam facility, Jun Cao et al., Phys. Rev.ST Accel.Beams 17 (2014) 090101, arXiv:1401.8125.
[Cao:2014bea]
[20-4]
A CW superconducting linac as the proton driver for a medium baseline neutrino beam in China, Zhihui Li, Jingyu Tang, Chin.Phys. C38 (2014) 127001, arXiv:1312.7694.
[Li:2013tca]
[20-5]
A precision measurement of the neutrino mixing angle $\theta_{13}$ using reactor antineutrinos at Daya Bay, X. Guo et al. (Daya Bay), arXiv:hep-ex/0701029, 2007. Proposal to DOE.
[DayaBay:2007fgu]

21 - Future Experiments - China - Talks

[21-1]
Jiangmen Underground Neutrino Observatory: Status and Prospectives, Yu-Feng Li (JUNO), arXiv:1606.04743, 2016. 17th Lomonosov Conference on Elementary Particle Physics.
[Li:2016ozg]
[21-2]
JUNO: a General Purpose Experiment for Neutrino Physics, Marco Grassi (JUNO), PoS LeptonPhoton2015 (2016) 097, arXiv:1605.09118. 27th International Symposium on Lepton Photon Interactions at High Energies.
[Grassi:2016glo]
[21-3]
Jiangmen Underground Neutrino Observatory, Miao He (JUNO), Nucl. Part. Phys. Proc. 265-266 (2015) 111-113, arXiv:1412.4195. NOW 2014.
[He:2014zwa]
[21-4]
Overview of the Jiangmen Underground Neutrino Observatory (JUNO), Yu-Feng Li, Int.J.Mod.Phys.Conf.Ser. 31 (2014) 1460300, arXiv:1402.6143.
[Li:2014qca]
[21-5]
The hunt for theta13 at the Daya Bay nuclear power plant, Wei Wang et al. (Daya Bay), AIP Conf. Proc. 1222 (2010) 494-497, arXiv:0910.4605. NuFact09.
[Wang:2009ym]

22 - Future Experiments - Europe

[22-1]
Design and performance of the ENUBET monitored neutrino beam, F. Acerbi et al., Eur.Phys.J.C 83 (2023) 964, arXiv:2308.09402.
[ENUBET:2023hgu]
[22-2]
The ESSnuSB design study: overview and future prospects, A. Alekou et al. (ESSnuSB), Universe 9 (2023) 347, arXiv:2303.17356.
[ESSnuSB:2023ogw]
[22-3]
The European Spallation Source neutrino Super Beam, A. Alekou et al., arXiv:2203.08803, 2022.
[Alekou:2022mav]
[22-4]
Updated physics performance of the ESSnuSB experiment: ESSnuSB collaboration, A. Alekou et al. (ESSnuSB), Eur. Phys. J. C 81 (2021) 1130, arXiv:2107.07585.
[ESSnuSB:2021azq]
[22-5]
The ENUBET positron tagger prototype: construction and testbeam performance, F.Acerbi et al., JINST 15 (2020) P08001, arXiv:2006.07269.
[Acerbi:2020nwd]
[22-6]
The feasibility study of the long baseline neutrino oscillation experiment at the SUNLAB laboratory in Poland, Malgorzata Haranczyk, Acta Phys.Polon. B50 (2019) 1303, arXiv:1905.08044.
[Haranczyk:2019ncp]
[22-7]
Letter of Interest for a Neutrino Beam from Protvino to KM3NeT/ORCA, A. V. Akindinov et al., Eur.Phys.J. C79 (2019) 758, arXiv:1902.06083.
[Akindinov:2019flp]
[22-8]
On the Optimization of Protvino to ORCA (P2O) Experiment, Sandhya Choubey, Monojit Ghosh, Dipyaman Pramanik, Eur.Phys.J. C79 (2019) 603, arXiv:1812.02608.
[Choubey:2018rnl]
[22-9]
The opportunity offered by the ESS$\nu$SB project to exploit the larger leptonic CP violation signal at the second oscillation maximum and the requirements of this project on the ESS accelerator complex, Elena Wildner et al. (ESSnuSB), Adv.High Energy Phys. 2016 (2016) 8640493, arXiv:1510.00493.
[Wildner:2015yaa]
[22-10]
Optimised sensitivity to leptonic CP violation from spectral information: the LBNO case at 2300 km baseline, S.K. Agarwalla et al. (LAGUNA-LBNO), arXiv:1412.0593, 2014.
[LAGUNA-LBNO:2014cdn]
[22-11]
LBNO-DEMO: Large-scale neutrino detector demonstrators for phased performance assessment in view of a long-baseline oscillation experiment, L. Agostino et al., arXiv:1409.4405, 2014.
[DeBonis:2014jlo]
[22-12]
The mass-hierarchy and CP-violation discovery reach of the LBNO long-baseline neutrino experiment, S.K. Agarwalla et al. (LAGUNA-LBNO), JHEP 1405 (2014) 094, arXiv:1312.6520.
[LAGUNA-LBNO:2013nkt]
[22-13]
A Very Intense Neutrino Super Beam Experiment for Leptonic CP Violation Discovery based on the European Spallation Source Linac: A Snowmass 2013 White Paper, E. Baussan et al. (ESSnuSB), Nucl. Phys. B885 (2014) 127-149, arXiv:1309.7022.
[ESSnuSB:2013dql]
[22-14]
Future large-scale water-Cherenkov detector, L. Agostino et al. (MEMPHYS), Phys. Rev. ST Accel. Beams 16, 061001 (2013) 061001, arXiv:1306.6865.
[Agostino:2013ilw]
[22-15]
Long distance $\nu_e \to \nu_mu$ transitions and CP-violation with high intensity beta-beams, Carlo Rubbia, arXiv:1306.2234, 2013.
[Rubbia:2013hha]
[22-16]
The EUROnu Project, T.R. Edgecock et al., Phys. Rev.ST Accel.Beams 16 (2013) 021002, arXiv:1305.4067.
[Edgecock:2013lga]
[22-17]
European Strategy for Accelerator-Based Neutrino Physics, Sergio Bertolucci et al., arXiv:1208.0512, 2012.
[Bertolucci:2012fb]
[22-18]
Study of the performance of a large scale water-Cherenkov detector (MEMPHYS), L. Agostino et al. (MEMPHYS), JCAP JCAP1301 (2013) 024, arXiv:1206.6665.
[MEMPHYS:2012bzz]
[22-19]
A CERN-based high-intensity high-energy proton source for long baseline neutrino oscillation experiments with next-generation large underground detectors for proton decay searches and neutrino physics and astrophysics, A. Rubbia, arXiv:1003.1921, 2010.
[Longhin:2012ae]
[22-20]
Large underground, liquid based detectors for astro-particle physics in Europe: scientific case and prospects, J. Aysto et al., JCAP 0711 (2007) 011, arXiv:0705.0116.
[Autiero:2007zj]
[22-21]
A new, very massive modular Liquid Argon Imaging Chamber to detect low energy off-axis neutrinos from the CNGS beam. (Project MODULAr), B. Baibussinov et al., Astropart. Phys. 29 (2008) 174-187, arXiv:0704.1422.
[Baibussinov:2007ea]
[22-22]
Study of accelerator neutrino interactions in a liquid argon TPC, A. Martinez de la Ossa, arXiv:hep-ex/0703026, 2007.
[MartinezdelaOssaRomero:2007rm]
[22-23]
Neutrino oscillation physics at an upgraded CNGS with large next generation liquid argon TPC detectors, A. Meregaglia, A. Rubbia, JHEP 11 (2006) 032, arXiv:hep-ph/0609106.
[Meregaglia:2006du]
[22-24]
Letter of Intent for Double-CHOOZ: a Search for the Mixing Angle $\vartheta_{13}$, F. Ardellier et al., arXiv:hep-ex/0405032, 2004.
[Ardellier:2004ui]
[22-25]
CNGS beam monitor with the LVD detector, M. Aglietta et al., Nucl. Instrum. Meth. A516 (2004) 96, arXiv:hep-ex/0304018.
[Aglietta:2003yf]
[22-26]
A low-energy optimization of the CERN-NGS neutrino beam for a $\theta_{13}$ driven neutrino oscillation search, A. Rubbia, P. Sala, JHEP 09 (2002) 004, arXiv:hep-ph/0207084.
[Rubbia:2002rb]
[22-27]
Expression of Interest in an Experiment at the CNGS to Measure $\theta_{13}$, F. Dydak et al., 2002. http://dydak.home.cern.ch/dydak/oscexp.ps.
[Dydak-t13-02]
[22-28]
Accelerator studies of neutrino oscillations, A. Ereditato, P. Migliozzi, Riv. Nuovo Cim. 23N12 (2000) 1-136.
[Ereditato:2000gp]
[22-29]
The long baseline project CERN Gran Sasso (CNGS), E. Scapparone, Nuovo Saggiatore 16 (2000) 85-93.
[Scapparone:2000uq]

23 - Future Experiments - Europe - Talks

[23-1]
Decay tunnel instrumentation for the ENUBET neutrino beam, F. Acerbi et al., JINST 15 (2020) C05059, arXiv:2004.02532. 15th Topical Seminar on Innovative Particle and Radiation Detectors (IPRD19)', 14-17 October 2019. Siena, Italy.
[Acerbi:2020qty]
[23-2]
The ENUBET narrow band neutrino beam, M. Tenti et al. (ENUBET), PoS NOW2018 (2018) 030, arXiv:1903.11416. NuPhys2018 (London 19-21 December 2018).
[ENUBET:2019vqi]
[23-3]
The ENUBET Beamline, G. Brunetti et al. (ENUBET), arXiv:1903.09044, 2019.
[ENUBET:2019ggo]
[23-4]
The design and performance of the EES Neutrino Super Beam project ESS$\nu$SB, Tord Ekelof, Marcos Dracos, PoS NOW2018 (2019) 029, arXiv:1903.08437.
[Ekelof:2019hqi]
[23-5]
The ERC ENUBET Project: high precision neutrino flux measurements in conventional neutrino beams, Fabio Pupilli (ENUBET), arXiv:1705.00150, 2017. NuPhys2016 (London, 12-14 December 2016).
[Pupilli:2017jje]
[23-6]
A Multi Megawatt Cyclotron Complex to Search for CP Violation in the Neutrino Sector, L. Calabretta, M. Maggiore, L. A. C. Piazza, D. Rifuggiato, A. Calanna, arXiv:1010.1493, 2010. Cyclotron'10, Lanzhou, China, Sept 7, 2010.
[Calabretta:2010mh]
[23-7]
The LAGUNA design study- towards giant liquid based underground detectors for neutrino physics and astrophysics and proton decay searches, D. Angus et al. (LAGUNA), arXiv:1001.0077, 2010. Workshop 'European Strategy for Future Neutrino Physics', CERN, Oct. 2009.
[LAGUNA:2010zms]
[23-8]
Giant Liquid Argon Observatory for Proton Decay, Neutrino Astrophysics and CP-violation in the Lepton Sector (GLACIER), A. Badertscher et al., arXiv:1001.0076, 2010. Workshop 'European Strategy for Future Neutrino Physics', CERN, Oct. 2009.
[Badertscher:2010sy]
[23-9]
R&D for Future 100 kton Scale Liquid Argon Detectors, A. Marchionni, arXiv:0912.4417, 2009. European Strategy for Future Neutrino Physics, CERN, Oct. 2009.
[Marchionni:2009tj]
[23-10]
Double-Chooz Neutrino Experiment, C. Palomares (Double Chooz), PoS EPS-HEP2009 (2009) 275, arXiv:0911.3227. EPS-HEP 2009, Krakow, Poland.
[Palomares:2009wz]
[23-11]
Underground Neutrino Detectors for Particle and Astroparticle Science: the Giant Liquid Argon Charge Imaging ExpeRiment (GLACIER), A. Rubbia, J. Phys. Conf. Ser. 171 (2009) 012020, arXiv:0908.1286.
[Rubbia:2009md]
[23-12]
The Double Chooz Experiment, Charles E. Lane (Double Chooz), arXiv:0810.2948, 2008. ICHEP08.
[Lane:2008ug]
[23-13]
The Double Chooz reactor neutrino experiment, I. Gil-Botella (Double Chooz), J. Phys. Conf. Ser. 110 (2008) 082007, arXiv:0710.4258. International Europhysics Conference on High Energy Physics (EPS-HEP2007), Manchester, England, July 19-25, 2007.
[Gil-Botella:2007hti]
[23-14]
OPERA first events from the CNGS neutrino beam, J. Marteau (for the OPERA), arXiv:0706.1699, 2007. XLIInd Rencontres de Moriond session, La Thuile, 10-17 March 2007.
[Marteau:2007uf]
[23-15]
Status of the OPERA Experiment, R. Zimmermann (OPERA), Acta Phys.Polon. B37 (2006) 1947-1954, arXiv:physics/0604101.
[Zimmermann:2006ab]
[23-16]
Searching for neutrino oscillations with OPERA, N. Savvinov (OPERA), arXiv:hep-ex/0602010, 2006. XII Lomonosov conference on Elementary Particle Physics.
[Savvinov:2006pb]
[23-17]
The SPL-Frejus physics potential, J.-E. Campagne, Nucl. Phys. Proc. Suppl. 155 (2006) 185, arXiv:hep-ex/0511013.
[Campagne:2005jh]
[23-18]
The SPL-Frejus physics potential, J.-E. Campagne, arXiv:hep-ex/0510029, 2005.
[Campagne:2005nm]
[23-19]
Opera-CNGS/Frejus-SPL, J.E. Campagne, A. Cazes et al. (OPERA), Nucl. Phys. Proc. Suppl. 143 (2005) 535, arXiv:hep-ex/0508045.
[Campagne:2005nh]
[23-20]
The OPERA experiment, H. Pessard et al. (OPERA), arXiv:hep-ex/0504033, 2005. 32nd International Conference on High-Energy Physics (ICHEP 04), Beijing, China, 16-22 Aug 2004.
[Pessard:2004kv]
[23-21]
Double-Chooz: a search for Theta13, Th. Lasserre, Nucl. Phys. Proc. Suppl. 149 (2005) 163, arXiv:hep-ex/0409060. Nufact'04, July 26 - August 01 2004, Osaka.
[Lasserre:2004vt]
[23-22]
Theta 13 Determination with Nuclear Reactors, F. Dalnoki-Veress (Double-Chooz Project), arXiv:hep-ex/0406070, 2004. XXXIXth Rencontres de Moriond, Electroweak Interactions and Unified Theories, La Thuile, Italy, March 2004.
[Dalnoki-Veress:2004nhz]
[23-23]
Results from the ICARUS T600 module - A measurement of the muon decay spectrum, Javier Rico (ICARUS), Eur. Phys. J. C33 (2004) S840, arXiv:hep-ex/0309023. International Europhysics Conference on High Energy Physics EPS (July 17th-23rd 2003) in Aachen, Germany.
[Rico:2003ec]
[23-24]
The CNGS Project, P. Migliozzi, 2003. XV IFAE Lecce 2003, Incontri sulla Fisica delle Alte Energie, 23-26 April 2003. http://www.le.infn.it/ifae/PDF/Migliozzi.pdf.
[Migliozzi:IFAE2003]
[23-25]
The CERN-Gran Sasso Neutrino Program, D. Duchesneau (OPERA), eConf C0209101 (2002) TH09, arXiv:hep-ex/0209082. Seventh International Workshop on Tau Lepton Physics (TAU02), Santa Cruz, CA, USA, Sept 2002.
[Duchesneau:2002yq]
[23-26]
Plans for OPERA and the CERN-Gran Sasso Program, P. Migliozzi (OPERA), 2002. Conference on Neutrinos and Implications for Physics Beyond the Standard Model, Stony Brook, Oct. 11-13, 2002. http://insti.physics.sunysb.edu/itp/conf/neutrino/talks/migliozzi.pdf.
[Migliozzi-talk:2002b]
[23-27]
The experimental programme with the CNGS neutrino beam, A. Ereditato, Nucl. Phys. Proc. Suppl. 100 (2001) 200-203.
[Ereditato:2001an]
[23-28]
The CERN neutrino beam to Gran Sasso and future long baseline experiments in Europe, A. Bueno, Nucl. Phys. Proc. Suppl. 76 (1999) 463-469.
[Bueno:1999vg]
[23-29]
Long baseline neutrino beams and appearance experiments, A. Ereditato, P. Migliozzi, 1999. In 'Venice 1999, Neutrino telescopes, vol. 1' 361-389.
[Ereditato:1999ng]
[23-30]
The CERN-LNGS neutrino programme, F. Pietropaolo, 1999. In 'Cape Town 1999, Weak interactions and neutrinos' 416- 425.
[Pietropaolo:1999yb]
[23-31]
Physics projects for a future CERN-LNGS neutrino programme, P. Picchi, F. Pietropaolo, Nucl. Phys. Proc. Suppl. 77 (1999) 187-197, arXiv:hep-ph/9812222.
[Picchi:1998yf]
[23-32]
The CERN to Gran Sasso long baseline neutrino beam project, Flavio Cavanna, Frascati Phys.Ser. 2 (1995) 0073-94. 9 Rencontres De Physique De La Vallee D'Aoste - Results and Perspectives in Particle Physics, La Thuile, Italy, 5 - 11 Mar 1995.
[Cavanna:1995bu]

24 - Future Experiments - Japan

[24-1]
The Hyper-Kamiokande Experiment - Snowmass LOI, K. Abe et al. (Hyper-Kamiokande), arXiv:2009.00794, 2020.
[Hyper-Kamiokande:2020aij]
[24-2]
Hyper-Kamiokande Design Report, K. Abe et al. (Hyper-Kamiokande Proto-), arXiv:1805.04163, 2018.
[Hyper-Kamiokande:2018ofw]
[24-3]
Machine Learning-based Energy Reconstruction for Water-Cherenkov detectors, Greig Cowan, Evangelia Drakopoulou, Matthew Needham, Mahdi Taani, arXiv:1704.08898, 2017.
[Cowan:2017aem]
[24-4]
Physics Potentials with the Second Hyper-Kamiokande Detector in Korea, K. Abe et al. (Hyper-Kamiokande Proto-Collaboration), PTEP 2018 (2018) 063C01, arXiv:1611.06118.
[Hyper-Kamiokande:2016srs]
[24-5]
TITUS: the Tokai Intermediate Tank for the Unoscillated Spectrum, C. Andreopoulos et al., arXiv:1606.08114, 2016.
[Andreopoulos:2016rqc]
[24-6]
Physics Potential of a Long Baseline Neutrino Oscillation Experiment Using J-PARC Neutrino Beam and Hyper-Kamiokande, K. Abe et al. (Hyper-Kamiokande Proto-Collaboration), PTEP (2015), arXiv:1502.05199.
[Abe:2015qaa]
[24-7]
Hyper-Kamiokande Physics Opportunities, E. Kearns et al. (Hyper-Kamiokande Working Group), arXiv:1309.0184, 2013.
[Hyper-KamiokandeWorkingGroup:2013hcb]
[24-8]
Letter of Intent: The Hyper-Kamiokande Experiment - Detector Design and Physics Potential, K. Abe et al., arXiv:1109.3262, 2011.
[Abe:2011ts]
[24-9]
Scintillator counters with multi-pixel avalanche photodiode readout for the ND280 detector of the T2K experiment, O. Mineev et al., Nucl.Instrum.Meth. A577 (2007) 540-551, arXiv:physics/0606037.
[Mineev:2006ek]
[24-10]
Letter of intent : Neutrino Oscillation Experiment at JHF, Y. Hayato et al., 2003. Letter of intent, January 21, 2003. http://neutrino.kek.jp/jhfnu/loi/loi_JHFcor.pdf.
[JHF-loi:2003a]
[24-11]
Possible Studies of Parton Distribution Functions at JHF, S. Kumano, arXiv:hep-ph/0207151, 2002.
[Kumano:2002wx]
[24-12]
Prospects of very long base-line neutrino oscillation experiments with the KEK-JAERI high intensity proton accelerator, M. Aoki et al., Phys. Rev. D67 (2003) 093004, arXiv:hep-ph/0112338.
[Aoki:2001rc]
[24-13]
The JHF-Kamioka neutrino project, Y. Itow et al. (The T2K), arXiv:hep-ex/0106019, 2001. Third Workshop on Neutrino Oscillations and Their Origin (NOON 2001), Kashiwa, Japan, 5-8 Dec 2001.
[T2K:2001wmr]
[24-14]
H2B: Prospect of a very long baseline neutrino oscillation experiment HIPA to Beijing, He-sheng Chen et al. (VLBL Study Group H2B-1), arXiv:hep-ph/0104266, 2001.
[VLBLStudyGroupH2B-1:2001qjf]
[24-15]
Prospects of very long base-line neutrino oscillation experiments with the JAERI-KEK high intensity proton accelerator, N. Okamura et al., arXiv:hep-ph/0104220, 2001.
[Okamura:2001xs]

25 - Future Experiments - Japan - Talks

[25-1]
Hyper-Kamiokande, Yury Kudenko, JINST 15 (2020) C07029, arXiv:2005.13641. INSTR20.
[Kudenko:2020snj]
[25-2]
Hyper-Kamiokande, Thomas Dealtry, arXiv:1904.10206, 2019. NuPhys2018 (London, 19-21 December 2018).
[Dealtry:2019ldr]
[25-3]
Diffuser Research and Development for Optical Calibration Systems in Hyper-Kamiokande, S. Valder, arXiv:1904.06201, 2019. NuPhys 2018.
[Valder:2019kfz]
[25-4]
The Narrow-beam Diffuser Subsystem of a Prototype Optical Calibration System for the Hyper-Kamiokande Detector, William G. S. Vinning, arXiv:1904.01660, 2019. NuPhys2018 (London, 19-21 December 2018).
[Vinning:2019gej]
[25-5]
Physics Potentials of the Hyper-Kamiokande Second Detector in Korea, Seon-Hee Seo, PoS ICHEP2018 (2019) 526, arXiv:1811.06682. ICHEP 2018.
[Seo:2018wnh]
[25-6]
The Hyper-Kamiokande Experiment, Masashi Yokoyama, Hyper-Kamiokande Proto-collaboration, arXiv:1705.00306, 2017. NuPhys2016 (London, 12-14 December 2016).
[Yokoyama:2017mnt]
[25-7]
Baby MIND Experiment Construction Status, M. Antonova et al., arXiv:1704.08917, 2017. NuPhys2016 (London, 12-14 December 2016).
[BabyMIND:2017xda]
[25-8]
Measuring the Leptonic Dirac CP Phase with TNT2K, Shao-Feng Ge, arXiv:1704.08518, 2017. NuPhys2016 (London, 12-14 December 2016).
[Ge:2017qqv]
[25-9]
The Hyper-Kamiokande Experiment: Overview $\text{\&}$ Status, Jost Migenda, Hyper-Kamiokande Proto-Collaboration, arXiv:1704.05933, 2017. NuPhys2016 (London, 12-14 December 2016).
[Migenda:2017oas]
[25-10]
An Intermediate Water Cherenkov Detector at J-PARC, Mark Scott (NuPRISM,Hyper-K), JPS Conf.Proc. 12 (2016) 010039, arXiv:1603.01251. NuInt2015, Osaka, November 2015.
[Scott:2016kdg]
[25-11]
TITUS: An Intermediate Distance Detector for the Hyper-Kamiokande Neutrino Beam, Pierre Lasorak, Nick Prouse (TITUS Working Group), arXiv:1504.08272, 2015. Prospects in Neutrino Physics Conference, 15 - 17 December, 2014, held at Queen Mary University of London, UK.
[Lasorak:2015eba]
[25-12]
Triggering and data acquisition for the Hyper-Kamiokande experiment, Debra Dewhurst, arXiv:1504.06708, 2015. Prospects in Neutrino Physics Conference 2014.
[Dewhurst:2015kba]
[25-13]
A Long Baseline Neutrino Oscillation Experiment Using J-PARC Neutrino Beam and Hyper-Kamiokande, Hyper-Kamiokande Working Group, arXiv:1412.4673, 2014.
[Hyper-KamiokandeWorkingGroup:2014czz]
[25-14]
T2HK: J-PARC upgrade plan for future and beyond T2K, T. Ishida et al. (Hyper-Kamiokande Working Group), arXiv:1311.5287, 2013. XVth international workshop on neutrino factories, super beams and beta beams (NUFACT2013), August 19-24, 2013, IHEP Beijing, China.
[Ishida:2013kba]
[25-15]
Overview of the T2K long baseline neutrino oscillation experiment, Trung Le (T2K), arXiv:0910.4211, 2009. DPF-2009, Detroit, MI, July 2009, eConf C090726.
[Le:2009nr]
[25-16]
The T2K Neutrino Oscillation Experiment and Possible Future Projects, N. C. Hastings, arXiv:0905.1211, 2009. Heavy Quarks and Leptons, Melbourne, 2008.
[Hastings:2009zx]
[25-17]
Status of the T2K 280m Near Detector, Thomas Lindner et al. (T2K), arXiv:0810.2220, 2008. ICHEP08.
[Lindner:2008yk]
[25-18]
Summary of the 3rd International Workshop on a Far Detector in Korea for the J-PARC Beam, T. Kajita, S.B. Kim, A.Rubbia, arXiv:0808.0650, 2008. 3rd International Workshop on a Far Detector in Korea for the J-PARC Neutrino Beam, Univ. of Tokyo, Tokyo, Japan, Sep.30 - Oct. 1, 2007.
[Kajita:2008fv]
[25-19]
Reach of Future Accelerator and Reactor Neutrino Efforts, Y. Obayashi (T2K), arXiv:0807.4012, 2008. Flavor Physics and CP Violation Conference, Taipei, 2008.
[Obayashi:2008nj]
[25-20]
A Possible Future Long Baseline Neutrino and Nucleon Decay Experiment with a 100 kton Liquid Argon TPC at Okinoshima using the J-PARC Neutrino Facility, A. Badertscher et al., arXiv:0804.2111, 2008. 4th International Workshop on Nuclear and Particle Physics at J-PARC (NP08).
[Badertscher:2008bp]
[25-21]
Neutrino Oscillations With A Next Generation Liquid Argon TPC Detector in Kamioka or Korea Along The J-PARC Neutrino Beam, A. Meregaglia, A. Rubbia, arXiv:0801.4035, 2008. 3rd International Workshop on a Far Detector in Korea for the J-PARC Neutrino Beam.
[Meregaglia:2008qr]
[25-22]
Long Baseline Neutrino Experiments in Japan, K. Nishikawa, 2006. III International Workshop on Neutrinos: NO-VE, 7-10 Feb 2006, Venice, Italy. http://axpd24.pd.infn.it/NO-VE2006/talks/NOVE_Nishikawa.pdf.
[Nishikawa:NOVE2006]
[25-23]
The KASKA project - a Japanese medium-baseline reactor- neutrino oscillation experiment to measure the mixing angle $\theta_{13}$, Masahiro Kuze (KASKA), Nucl. Phys. Proc. Suppl. 149 (2005) 160, arXiv:hep-ex/0502002. Sixth International Workshop on Neutrino Factories and Superbeams (NuFact04), July 26 - August 1, Osaka, Japan.
[Kuze:2005kz]
[25-24]
Physics prospects of future neutrino oscillation experiments in Asia, Kaoru Hagiwara, Nucl. Phys. Proc. Suppl. 137 (2004) 84, arXiv:hep-ph/0410229. SEESAW 1979-2004, 23-25 February 2004, KEK.
[Hagiwara:2004iq]
[25-25]
J-PARC (neutrino experiment), Y. Hayato, 2004. High Intensity Frontier Workshop, 5-8 June 2004, La Biodola, Elba, Italy. http://www.pi.infn.it/pm/2004/talks/hayato.pdf.
[Hayato:HIF2004]
[25-26]
Precise measurement of \sin^22\theta_{13} using Japanese Reactors, F. Suekane, K. Inoue, T. Araki, K. Jongok, arXiv:hep-ex/0306029, 2003. 4th Workshop on Neutrino Oscillations and their Origin (NOON2003), Kanazawa, Japan, 10-14 Feb 2003.
[Suekane:2003nh]
[25-27]
Physics potential of future long baseline neutrino oscillation experiments with KEK-JAERI HIPA, Mayumi Aoki, Nucl. Phys. Proc. Suppl. 111 (2002) 146-151, arXiv:hep-ph/0204008. 5th KEK Topical Conference: Frontiers in Flavor Physics (KEKTC5), Tsukuba, Ibaraki, Japan, 20-22 Nov 2001.
[Aoki:2002ks]
[25-28]
JHF-Kamioka Project, T. Ishii, 2002. 2nd International Workshop on Nuclear and Particle Physics at 50-GeV PS, Kyoto University, Kyoto, Japan, September 27-29, 2002. http://jnusrv01.kek.jp/jnu/NP02/Sep27/ishii.pdf.
[Ishii-Kyoto2002]
[25-29]
JHF-Kamioka Neutrino Oscillation Experiment using JHF 50 GeV PS, Y. Itow (Super-Kamiokande), 2002. 31st International Conference on High Energy Physics - ICHEP 02 - Amsterdam, Holland, 24-31 July 2002. http://www.ichep02.nl/Transparencies/NEU/NEU-2/NEU-2-2.itow.pdf.
[Itow-ICHEP02]
[25-30]
Physics in the JHF-Kamioka neutrino project, T. Kajita, 2002. 2nd International Workshop on Nuclear and Particle Physics at 50-GeV PS, Kyoto University, Kyoto, Japan, September 27-29, 2002. http://jnusrv01.kek.jp/jnu/NP02/Sep26/kajita.jhf-kamioka-phys.pdf.
[Kajita-Kyoto2002]
[25-31]
Present status of the joint project, S. Nagamiya, 2002. 2nd International Workshop on Nuclear and Particle Physics at 50-GeV PS, Kyoto University, Kyoto, Japan, September 27-29, 2002. http://www-nh.scphys.kyoto-u.ac.jp/NP02/transp/Nagamiya.pdf.
[Nagamiya-Kyoto2002]

26 - Future Experiments - USA

[26-1]
Large Low Background kTon-Scale Liquid Argon Time Projection Chambers, A. Borkum et al., J.Phys.G 50 (2023) 060502, arXiv:2301.11878.
[Bezerra:2023gvl]
[26-2]
Optimization Studies for the Long-Baseline Neutrino Facility at Fermilab, Igor Rakhno, Nikolai Mokhov, Igor Tropin, Sergei Striganov, arXiv:2210.07752, 2022.
[Rakhno:2022nij]
[26-3]
Optimization of Superconducting Linac for Proton Improvement Plan-II (PIP-II), Abhishek Pathak, Eduard Pozdeyev, JACoW NAPAC2022 (2022) MOPA36, arXiv:2209.02520.
[Pathak:2022hpo]
[26-4]
PIP2-BD: GeV Proton Beam Dump at Fermilab's PIP-II Linac, M. Toups et al., arXiv:2203.08079, 2022.
[Toups:2022yxs]
[26-5]
Snowmass Neutrino Frontier: DUNE Physics Summary, A. Abed Abud et al. (DUNE), arXiv:2203.06100, 2022.
[DUNE:2022aul]
[26-6]
An 8 GeV Linac as the Booster Replacement in the Fermilab Power Upgrade: a Snowmass 2021 White Paper, S. Belomestnykh, M. Checchin, D. Johnson, D. Neuffer, S. Posen, E. Pozdeyev, V. Pronskikh, N. Solyak, V. Yakovlev, JINST 18 (2023) T07009, arXiv:2203.05052.
[Belomestnykh:2022jhs]
[26-7]
Low-latency NuMI Trigger for the CHIPS-5 Neutrino Detector, Petr Manek et al., Nucl.Instrum.Meth.A 1030 (2022) 166513, arXiv:2109.10174.
[Bash:2021sic]
[26-8]
Low exposure long-baseline neutrino oscillation sensitivity of the DUNE experiment, A. Abed Abud et al. (DUNE), Phys.Rev.D 105 (2022) 072006, arXiv:2109.01304.
[DUNE:2021mtg]
[26-9]
An Upgrade Path for the Fermilab Accelerator Complex, R. Ainsworth et al., arXiv:2106.02133, 2021.
[Ainsworth:2021ahm]
[26-10]
Deep Underground Neutrino Experiment (DUNE) Near Detector Conceptual Design Report, A. Abed Abud et al., Instruments 5 (2021) 31, arXiv:2103.13910.
[DUNE:2021tad]
[26-11]
Experiment Simulation Configurations Approximating DUNE TDR, B. Abi et al. (DUNE), arXiv:2103.04797, 2021.
[DUNE:2021cuw]
[26-12]
Long-baseline neutrino oscillation physics potential of the DUNE experiment, B. Abi et al. (DUNE), Eur.Phys.J. C80 (2020) 978, arXiv:2006.16043.
[DUNE:2020jqi]
[26-13]
Neutrino-hydrogen interactions with a high-pressure TPC, Philip Hamacher-Baumann, Xianguo Lu, Justo Martin-Albo, Phys.Rev. D102 (2020) 033005, arXiv:2005.05252.
[Hamacher-Baumann:2020ogq]
[26-14]
Deep Underground Neutrino Experiment (DUNE), Far Detector Technical Design Report, Volume IV Far Detector Single-phase Technology, B. Abi et al., JINST 15 (2020) T08010, arXiv:2002.03010.
[DUNE:2020txw]
[26-15]
Deep Underground Neutrino Experiment (DUNE), Far Detector Technical Design Report, Volume III DUNE Far Detector Technical Coordination, B. Abi et al., JINST 15 (2020) T08009, arXiv:2002.03008.
[DUNE:2020mra]
[26-16]
Deep Underground Neutrino Experiment (DUNE), Far Detector Technical Design Report, Volume II DUNE Physics, B. Abi et al., arXiv:2002.03005, 2020.
[DUNE:2020ypp]
[26-17]
Deep Underground Neutrino Experiment (DUNE), Far Detector Technical Design Report, Volume 1 Introduction to DUNE, B. Abi et al., JINST 15 (2020) T08008, arXiv:2002.02967.
[DUNE:2020lwj]
[26-18]
Lepton-Nucleus Cross Section Measurements for DUNE with the LDMX Detector, Artur M. Ankowski, Alexander Friedland, Shirley Weishi Li, Omar Moreno, Philip Schuster, Natalia Toro, Nhan Tran, Phys.Rev. D101 (2020) 053004, arXiv:1912.06140.
[Ankowski:2019mfd]
[26-19]
Measurement of Beam-Correlated Background Neutrons from the Fermilab Booster Neutrino Beam in ANNIE Phase-I, Asheley R. Back et al., JINST 15 (2020) P03011, arXiv:1912.03186.
[ANNIE:2019azm]
[26-20]
Rapid-Cycling Synchrotron for Multi-Megawatt Proton Facility at Fermilab, Jeffrey Eldred, Valeri Lebedev, Alexander Valishev, JINST 14 (2019) P07021, arXiv:1903.12408.
[Eldred:2019erg]
[26-21]
The DUNE Far Detector Interim Design Report, Volume 3: Dual-Phase Module, B. Abi et al. (DUNE), arXiv:1807.10340, 2018.
[DUNE:2018mlo]
[26-22]
The DUNE Far Detector Interim Design Report Volume 1: Physics, Technology and Strategies, B. Abi et al. (DUNE), arXiv:1807.10334, 2018.
[DUNE:2018tke]
[26-23]
The DUNE Far Detector Interim Design Report, Volume 2: Single-Phase Module, B. Abi et al. (DUNE), arXiv:1807.10327, 2018.
[DUNE:2018hrq]
[26-24]
A 4 tonne demonstrator for large-scale dual-phase liquid argon time projection chambers, B. Aimard et al., JINST 13 (2018) P11003, arXiv:1806.03317.
[Aimard:2018yxp]
[26-25]
Liquid Argon test of the ARAPUCA device, E. Segreto et al., JINST 13 (2018) P08021, arXiv:1805.00382.
[Segreto:2018jdx]
[26-26]
The X-ARAPUCA: An improvement of the ARAPUCA device, A.A. Machado et al., arXiv:1804.01407, 2018.
[Machado:2018rfb]
[26-27]
Commissioning and first results of the Electron Beam Profiler in the Main Injector at Fermilab, R. Thurman-Keup et al., arXiv:1803.01033, 2018.
[Thurman-Keup:2017nbw]
[26-28]
The Deep Underground Neutrino Experiment - DUNE: the precision era of neutrino physics, Ernesto Kemp, Astron.Nachr. 338 (2017) 993-999, arXiv:1709.09385.
[Kemp:2017kbm]
[26-29]
The Single-Phase ProtoDUNE Technical Design Report, B. Abi et al. (DUNE), arXiv:1706.07081, 2017.
[DUNE:2017pqt]
[26-30]
Fermilab Proton Accelerator Complex Status and Improvement Plans, Vladimir Shiltsev, Mod.Phys.Lett. A32 (2017) 1730012, arXiv:1705.03075.
[Shiltsev:2017mle]
[26-31]
R&D On Beam Injection and Bunching Schemes In The Fermilab Booster, C.M. Bhat, arXiv:1704.08157, 2017.
[Bhat:2016guz]
[26-32]
PIP-II Transfer Lines Design, A. Vivoli, arXiv:1701.00824, 2017.
[Vivoli:2017fgv]
[26-33]
Experiment Simulation Configurations Used in DUNE CDR, T. Alion et al., arXiv:1606.09550, 2016.
[DUNE:2016ymp]
[26-34]
Long-Baseline Neutrino Facility (LBNF) and Deep Underground Neutrino Experiment (DUNE) Conceptual Design Report Volume 3: Long-Baseline Neutrino Facility for DUNE June 24, 2015, James Strait et al. (DUNE), arXiv:1601.05823, 2016.
[DUNE:2016evb]
[26-35]
Long-Baseline Neutrino Facility (LBNF) and Deep Underground Neutrino Experiment (DUNE) Conceptual Design Report Volume 1: The LBNF and DUNE Projects, R. Acciarri et al. (DUNE), arXiv:1601.05471, 2016.
[DUNE:2016hlj]
[26-36]
Long-Baseline Neutrino Facility (LBNF) and Deep Underground Neutrino Experiment (DUNE) Conceptual Design Report, Volume 4 The DUNE Detectors at LBNF, R.Acciarri et al. (DUNE), arXiv:1601.02984, 2016.
[DUNE:2016rla]
[26-37]
Long-Baseline Neutrino Facility (LBNF) and Deep Underground Neutrino Experiment (DUNE) Conceptual Design Report Volume 2: The Physics Program for DUNE at LBNF, R.Acciarri et al. (DUNE), arXiv:1512.06148, 2015.
[DUNE:2015lol]
[26-38]
SiPMs characterization and selection for the DUNE far detector photon detection system, Yujing Sun, Jelena Maricic, JINST 11 (2016) C01078, arXiv:1511.04756.
[Sun:2015pwr]
[26-39]
Opportunities With Decay-At-Rest Neutrinos From Decay-In-Flight Neutrino Beams, Christopher Grant, Bryce Littlejohn, PoS ICHEP2016 (2016) 483, arXiv:1510.08431.
[Grant:2015jva]
[26-40]
Current status of the LBNE neutrino beam, Craig Damon Moore et al., arXiv:1502.02014, 2015.
[Moore:2013gop]
[26-41]
An 800-MeV superconducting LINAC to support megawatt proton operations at Fermilab, Paul Derwent, Steve Holmes, Valeri Lebedev, arXiv:1502.01728, 2015.
[Derwent:2014fni]
[26-42]
Design of the LBNE Beamline, V. Papadimitriou et al., arXiv:1502.01636, 2015.
[Papadimitriou:2014ffw]
[26-43]
LArIAT: Liquid Argon In A Testbeam, F. Cavanna, M. Kordosky, J. Raaf, B. Rebel (LArIAT), arXiv:1406.5560, 2014.
[Cavanna:2014iqa]
[26-44]
Planning the Future of U.S. Particle Physics (Snowmass 2013): Chapter 2: Intensity Frontier, J. L. Hewett et al., arXiv:1401.6077, 2014.
[Hewett:2014qja]
[26-45]
The CAPTAIN Detector and Physics Program, H. Berns et al. (CAPTAIN), arXiv:1309.1740, 2013.
[CAPTAIN:2013irr]
[26-46]
Scientific Opportunities with the Long-Baseline Neutrino Experiment, C. Adams et al. (LBNE), arXiv:1307.7335, 2013.
[LBNE:2013dhi]
[26-47]
R&D Argon Detector at Ash River (RADAR) - Letter of Intent, P. Adamson et al., arXiv:1307.6507, 2013.
[Adamson:2013jsa]
[26-48]
Cyclotrons as Drivers for Precision Neutrino Measurements, A. Adelmann et al., Adv.High Energy Phys. 2014 (2014) 347097, arXiv:1307.6465.
[Adelmann:2013isa]
[26-49]
Whitepaper on the DAEdALUS Program, C. Aberle et al., arXiv:1307.2949, 2013.
[Aberle:2013ssa]
[26-50]
Precision Neutrino Oscillation Measurements using Simultaneous High-Power, Low-Energy Project-X Beams, M. Bishai et al., arXiv:1307.0807, 2013.
[Bishai:2013yqo]
[26-51]
Project X: Physics Opportunities, Andreas S. Kronfeld et al., arXiv:1306.5009, 2013.
[Kronfeld:2013uoa]
[26-52]
Multimegawatt DAE$delta$ALUS Cyclotrons for Neutrino Physics, M. Abs et al., arXiv:1207.4895, 2012.
[Abs:2012wp]
[26-53]
The Long Baseline Neutrino Experiment (LBNE) Water Cherenkov Detector (WCD) Conceptual Design Report (CDR), J. Goon et al. (LBNE), arXiv:1204.2295, 2012.
[LBNE:2012ute]
[26-54]
The 2010 Interim Report of the Long-Baseline Neutrino Experiment Collaboration Physics Working Groups, T. Akiri et al. (LBNE), arXiv:1110.6249, 2011.
[LBNE:2011wrh]
[26-55]
Project-X: A new high intensity proton accelerator complext at Fermilab, R. Tschirhart, arXiv:1109.3500, 2011.
[Tschirhart:2011yu]
[26-56]
Deep Underground Science and Engineering Laboratory - Preliminary Design Report, Kevin T. Lesko et al., arXiv:1108.0959, 2011.
[Lesko:2011qk]
[26-57]
A Study of Detector Configurations for the DUSEL CP Violation Searches Combining LBNE and DAEdALUS, J. Alonso et al. (DAEdALUS), arXiv:1008.4967, 2010.
[DAEdALUS:2010sxg]
[26-58]
Expression of Interest for a Novel Search for CP Violation in the Neutrino Sector: DAEdALUS, J. Alonso et al. (DAEdALUS), arXiv:1006.0260, 2010.
[Alonso:2010fs]
[26-59]
A New Method to Search for CP violation in the Neutrino Sector, J.M. Conrad, M.H. Shaevitz, Phys. Rev. Lett. 104 (2010) 141802, arXiv:0912.4079.
[Conrad:2009mh]
[26-60]
Report on the Depth Requirements for a Massive Detector at Homestake, Adam Bernstein et al., arXiv:0907.4183, 2009.
[Bernstein:2009ms]
[26-61]
DUSEL Theory White Paper, S. Raby et al., arXiv:0810.4551, 2008.
[Raby:2008pd]
[26-62]
Report of the US long baseline neutrino experiment study, V. Barger et al., arXiv:0705.4396, 2007.
[Barger:2007yw]
[26-63]
Using the Fermilab Proton Source for a Muon to Electron Conversion Experiment, C. Ankenbrandt et al., arXiv:physics/0611124, 2006.
[Ankenbrandt:2006zu]
[26-64]
Event Rates for Off Axis NuMI Experiments, B. Viren, arXiv:hep-ex/0608059, 2006.
[Viren:2006nt]
[26-65]
Proposal for an Experimental Program in Neutrino Physics and Proton Decay in the Homestake Laboratory, M. Diwan et al., arXiv:hep-ex/0608023, 2006.
[Diwan:2006qf]
[26-66]
Physics at a Fermilab Proton Driver, M.G. Albrow et al., arXiv:hep-ex/0509019, 2005.
[Albrow:2005kw]
[26-67]
NOvA proposal to build a 30-kiloton off-axis detector to study neutrino oscillations in the Fermilab NuMI beamline, I. Ambats et al. (NOvA), arXiv:hep-ex/0503053, 2005.
[NOvA:2004blv]
[26-69]
Megaton Modular Multi-Purpose Neutrino Detector for a Program of Physics in the Homestake DUSEL, M. V. Diwan et al., arXiv:hep-ex/0306053, 2003.
[Diwan:2003uw]
[26-70]
Detector R&D for future Neutrino Experiments with the NuMI Beamline, G. Barenboim et al., arXiv:hep-ex/0304017, 2003.
[Barenboim:2002mf]
[26-71]
Very long baseline neutrino oscillation experiments for precise measurements of mixing parameters and CP violating effects, M. V. Diwan et al., Phys. Rev. D68 (2003) 012002, arXiv:hep-ph/0303081.
[Diwan:2003bp]
[26-72]
Mini-LANNDD T40: A detector to measure the neutrino-argon cross section and the electron-neutrino contamination in the off-axis NuMI beam, David B. Cline, Youngho Seo, Franco Sergiampietri, arXiv:astro-ph/0301545, 2003.
[Cline:2003vg]
[26-73]
Progress report on the proposal to built an off-axis detector to study $\nu_\mu \to \nu_e$ oscillations in the NuMI beamline, I. Ambats et al., 2003. http://huhepl.harvard.edu/~feldman/Progress_Report_v2.pdf.
[NuMI-off-axis-0312]
[26-74]
Very long baseline neutrino oscillation experiment for precise determination of oscillation parameters and search for $\nu_\mu \to \nu_e$ appearance and CP violation, M. Diwan, arXiv:hep-ex/0211001, 2002.
[Diwan:2002xc]
[26-75]
Letter of Intent to build an Off-axis Detector to study $\nu_\mu \to \nu_e$ oscillations with the NuMI Neutrino Beam, D. Ayres et al. (NOvA), arXiv:hep-ex/0210005, 2002.
[Ayres:2002ws]
[26-76]
Measuring the CP-violating phase by a long base-line neutrino experiment with Hyper-Kamiokande, M. Aoki, K. Hagiwara, N. Okamura, Phys. Lett. B554 (2003) 121, arXiv:hep-ph/0208223.
[Aoki:2002ae]
[26-77]
Physics potential at FNAL with stronger proton sources, G. Barenboim et al., arXiv:hep-ex/0206025, 2002.
[Barenboim:2002bq]
[26-78]
Neutrino Oscillation Experiments for Precise Measurements of Oscillation Parameters and Search for $\nu_\mu \to \nu_e$ Appearance and CP Violation, D. Beavis et al. (BNL Neutrino Working Group), arXiv:hep-ex/0205040, 2002. Letter of intent to Brookhaven National Lab. See http://minos.phy.bnl.gov/nwg/preprints.html for links to full PS and PDF version. hep-ph/0108181 is considered an appendix.
[Beavis:2002ye]
[26-79]
A Strategy for Accelerator-Based Neutrino Physics in the USA, Kirk T McDonald, arXiv:hep-ex/0204037, 2002.
[McDonald:2002mj]
[26-80]
Detector R&D for future neutrino experiments with the NuMI Beamline, G., Barenboim et al., 2002. Report to the Fermilab Directorate, NuMI-PUB-GEN-0880, from the Study Group on Future Neutrino Experiments at Fermilab. http://www.hep.anl.gov/mcg/detrd/detectrd.pdf.
[FNAL-report:2002a]
[26-81]
Espression of Interest to Perform a High Statistics Neutrino Scattering Experiment using a fine-grained Detector in the NuMI beam., Argonne Nat. Lab., et al., 2002. Espression of Interest, October 22, 2002. http://home.fnal.gov/~morfin/midis/midis_eoi.pdf.
[NuMI-loi:2002a]
[26-82]
Espression of Interest in Construction of an Off-Axis Near Detector to Measure Neutrino Cross Sections in Nuclear Targets in the Few GeV Region with the NuMI Beam., Bodek A., et al., 2002. Espression of Interest, June 4, 2002. http://www.pas.rochester.edu/~ksmcf/numi-near/eoi.pdf.
[NuMI-loi:2002b]
[26-83]
Neutrino oscillations experiments using off-axis NuMI beam, A. Para, M. Szleper, arXiv:hep-ex/0110032, 2001.
[Para:2001cu]
[26-84]
Long Baseline Neutrino Oscillation Experiment at the AGS, D. Beavis et al. (E889), 1995. BNL-52459. http://minos.phy.bnl.gov/nwg/papers/E889/.
[Beavis-BNL-52459]

27 - Future Experiments - USA - Talks

[27-1]
DUNE: Status and Perspectives, D. Brailsford, arXiv:1804.04979, 2018. NuPhys2017 (London, 20-22 December 2017).
[Brailsford:2018dzn]
[27-2]
Sensitivity of DUNE to long-baseline neutrino oscillation physics, Justo Martin-Albo (DUNE), PoS EPS-HEP2017 (2017) 122, arXiv:1710.08964. European Physical Society conference on High Energy Physics (EPS-HEP) 2017.
[Martin-Albo:2017vgg]
[27-3]
Proton Beam Intensity Upgrades for the Neutrino Program at Fermilab, C.M. Bhat, PoS ICHEP0216 (2017) 061, arXiv:1705.01499. 38th International Conference on High-Energy Physics, 3-10 August, 2016, Chicago, USA.
[Bhat:2016jnp]
[27-4]
Design Of The LBNF Beamline, Vaia Papadimitriou et al., arXiv:1704.04471, 2017. 7th International Particle Accelerator Conference (IPAC 2016): Busan, Korea, May 8-13, 2016. https://inspirehep.net/record/1591653/files/arXiv:1704.04471.pdf.
[Papadimitriou:2016ksv]
[27-5]
Fermilab's Accelerator Complex: Current Status, Upgrades and Outlook, M.E. Convery, PoS ICHEP2016 (2016) 047, arXiv:1612.09287. 38th International Conference on High Energy Physics 3-10 August 2016, Chicago, USA.
[Convery:2016vxa]
[27-6]
US Accelerator R&D Program Toward Intensity Frontier Machines, Vladimir Shiltsev, PoS ICHEP2016 (2016) 806, arXiv:1612.08751. 38th International Conference on High Energy Physics 3-10 August 2016 Chicago, USA.
[Shiltsev:2016nhc]
[27-7]
Photon Detection System Designs for the Deep Underground Neutrino Experiment, Denver Whittington, JINST 11 (2016) C05019, arXiv:1511.06345. LIght Detection In Noble Elements (LIDINE 2015).
[Whittington:2015rkr]
[27-8]
Early Beam Injection Scheme for the Fermilab Booster: A Path for Intensity Upgrade, C. M. Bhat, arXiv:1510.08427, 2015. DPF 2015 Meeting of the American Physical Society Division of Particles and Fields, Ann Arbor, Michigan, August 4-8, 2015.
[Bhat:2015dxa]
[27-9]
Construction of the CHIPS-M prototype and simulations of a 10 kiloton module, Andrew Perch (CHIPS), arXiv:1505.00042, 2015. Prospects in Neutrino Physics Conference, 15 - 17 December, 2014, Queen Mary University of London, UK.
[Perch:2015zka]
[27-10]
Prospects for CHIPS (R&D of Water Cherenkov Detectors in Mine Pits), Karol Lang (CHIPS), arXiv:1504.08330, 2015. Prospects in Neutrino Physics Conference, 15 - 17 December, 2014, held at Queen Mary University of London, UK.
[Lang:2015jba]
[27-11]
The Intermediate Neutrino Program, C. Adams et al., arXiv:1503.06637, 2015.
[Adams:2015ogl]
[27-12]
Future Neutrino Oscillation Sensitivities for LBNE, Matthew Bass, Daniel Cherdack, Robert J. Wilson, arXiv:1310.6812, 2013. DPF 2013 Meeting of the American Physical Society Division of Particles and Fields, Santa Cruz, California, August 13-17, 2013.
[Bass:2013taa]
[27-13]
Photon Detection in the Cryogenic Apparatus for Precision Tests of Argon Interactions with Neutrinos (CAPTAIN), Keith Rielage, JINST 1309 (2013) C09002, arXiv:1309.2312. LIDINE 2013.
[Rielage:2013mea]
[27-14]
Status of the Design of the LBNE Neutrino Beamline, R. Andrews et al., Conf.Proc. C1205201 (2012) 451-453, arXiv:1301.6985. 3rd International Particle Accelerator Conference (IPAC 2012) 20-25 May 2012, New Orleans, Louisiana.
[Andrews:2012zza]
[27-15]
Overview of the LBNE Neutrino Beam, C. D. Moore et al. (LBNE), Conf.Proc. C110328 (2011) 1948-1950, arXiv:1209.2443. Particle Accelerator, 24th Conference (PAC'11) 2011. 28 Mar - 1 Apr 2011. New York, USA.
[LBNE:2011pkt]
[27-16]
The NOvA Experiment: Status and Outlook, R. B. Patterson (NOvA), Nucl. Phys. Proc. Suppl. 235-236 (2013) 151-157, arXiv:1209.0716. XXV International Conference on Neutrino Physics and Astrophysics (Neutrino 2012).
[Patterson:2012zs]
[27-17]
Project X - a new multi-megawatt proton source at Fermilab, S. Nagaitsev, arXiv:1208.5759, 2012. Particle Accelerator, 24th Conference (PAC'11) 2011. 28 Mar - 1 Apr 2011. New York, USA.
[Nagaitsev:2011zza]
[27-18]
Simulations of Pion Production in the DAEdALUS Target, Adriana Bungau et al. (DAEdALUS), arXiv:1205.5528, 2012. IPAC 2012.
[Bungau:2012yr]
[27-19]
An FFAG Accelerator for Project X, L. Jenner, C. Johnstone, D. Neuffer, J. Pasternak, arXiv:1203.1898, 2012. 24th Conference (PAC'11) 28 Mar - 1 Apr 2011: New York, USA.
[Jenner:2012he]
[27-20]
Status of the LBNE Neutrino Beamline, Vaia Papadimitriou, arXiv:1112.0720, 2011. NUFACT 11.
[Papadimitriou:2011fz]
[27-21]
NOvA: Present and Future, Gavin S. Davies (NOvA), arXiv:1110.0112, 2011. DPF-2011 Conference, Providence, RI, August 8-13, 2011.
[Davies:2011vd]
[27-22]
High Power, High Energy Cyclotrons for Decay-At-Rest Neutrino Sources: The DAEdALUS Project, Jose R. Alonso (DAEdALUS), arXiv:1109.6861, 2011. DPF-2011 Conference, Providence, RI, August 8-13, 2011.
[Alonso:2011sb]
[27-23]
The DAEdALUS Experiment, Janet M. Conrad (DAEdALUS), Nucl. Phys. Proc. Suppl. 229-232 (2012) 386-390, arXiv:1012.4853. XXIV International Conference on Neutrino Physics and Astrophysics (Neutrino 2010), Athens, Greece, June 14-19, 2010.
[Conrad:2010eu]
[27-24]
The DAEDALUS Project: Rationale and Beam Requirements, Jose R. Alonso (DAEDALUS), arXiv:1010.0971, 2010. Cyclotron'10, Lanzhou, China, Sept 7, 2010.
[Alonso:2010yz]
[27-25]
Sensitivities of Future Long Baseline Experiments in the US, Mark Dierckxsens, AIP Conf. Proc. 981 (2008) 228-230, arXiv:0711.1511. 9th International Workshop On Neutrino Factories, Superbeams and Betabeams (NuFact07) August 6-11, 2007, Okayama University, Japan.
[Dierckxsens:2007bb]
[27-26]
Long Baseline Neutrino Physics in the U.S, Sacha E. Kopp, Nucl. Phys. Proc. Suppl. 168 (2007) 161-166, arXiv:hep-ex/0612025. Neutrino Oscillation Workshop (NOW2006), Sept. 2006.
[Kopp:2006xb]
[27-27]
Physics at a New Fermilab Proton Driver, S. Geer, arXiv:hep-ph/0604024, 2006. III International Workshop on Neutrino Oscillations in Venice, February 7-10, 2006.
[Geer:2006vg]
[27-28]
Neutrino oscillation physics with a FNAL proton driver, Walter Winter, Nucl. Phys. Proc. Suppl. 155 (2006) 190, arXiv:hep-ph/0510024. NuFact 05 workshop, June 21-26, Frascati, Italy.
[Winter:2005uc]
[27-29]
Very Long Baseline Neutrino Oscillations, The BNL VLBNLO Concept, Brett Viren, Nucl. Phys. Proc. Suppl. 155 (2006) 182, arXiv:hep-ex/0510018. NuFact05.
[Viren:2005xw]
[27-30]
UNO, R. Jeffrey Wilkes, arXiv:hep-ex/0507097, 2005. XI International Workshop on 'Neutrino Telescopes', Feb 22-25, 2005, Venice, Italy.
[Wilkes:2005rg]
[27-31]
A Unique Detector for Proton Decay and Neutrino Oscillations Study (LANNDD) for a Usa Dusel, David B. Cline, arXiv:astro-ph/0506546, 2005. XI Neutrino Telescope Conference, February 2005, Venice, Italy.
[Cline:2005dm]
[27-32]
Off-Axis Experiment, G. Feldman, 2003. Fermilab Long Range Planning Committee, November 7, 2003, Fermilab, Batavia, Illinois USA. http://www.fnal.gov/directorate/Longrange/Neutrinos1103_Talks/feldman.pdf.
[Feldman:FLRP2003]
[27-33]
The Fermilab neutrino physics program, J. G. Morfin, AIP Conf. Proc. 670 (2003) 387-394.
[Morfin:2003eq]
[27-34]
Neutrino Oscillation Experiments with NuMI Beam, A. Para (MINOS), 2003. Talk given at the 2nd International conference on Flavor Physics, ICFP 2003, 6-11 October 2003, Korea Institute for Advanced Study (KIAS). http://newton.kias.re.kr/~hepph/public_html/03icfp/talk/para.pdf.
[Para:ICFP2003]
[27-35]
Charged-Current Disappearance Measurements in the NuMI Off-Axis Beam, R. H. Bernstein, J. Phys. G29 (2003) 1997, arXiv:hep-ex/0212042. NuFact'02.
[Bernstein:2002tb]
[27-36]
Very Long Baseline Neutrino Oscillation Experiment for Precise Determination of Oscillation Parameters and Search for $\nu_\mu \to \nu_e$ Appearance and CP Violation, M. Diwan et al. (BNL Neutrino Working Group), arXiv:hep-ex/0211001, 2002. Report of the Brookhaven Neutrino Working Group to BNL. http://nwg.phy.bnl.gov.
[Diwan:2002xc]
[27-37]
The NuMI Neutrino Beam and Potential for an Off-Axis Experiment, S. E. Kopp, J. Phys. G29 (2003) 1757, arXiv:hep-ex/0210009. NuFact '02, Imperial College London.
[Kopp:2002iu]
[27-38]
Long baseline neutrino oscillation program in the United States, S. G. Wojcicki, Nucl. Phys. Proc. Suppl. 77 (1999) 182-186.
[Wojcicki:1999dh]

Search Neutrino Unbound

Cross search NU

It is possible to perform a cross search between the various pages of Neutrino Unbound.
This is useful if you want to show the common elements that appear in the listings of two (or more) different topics or experiments.

Go to the search form.

[Go to ...]

Neutrino Unbound Home

Authors:
Stefano Gariazzo / gariazzo@to.infn.it
Carlo Giunti / giunti@to.infn.it
Marco Laveder / marco.laveder@pd.infn.it
Last Update: Wed 27 Mar 2024, 09:49:43 CET