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Improved limits on $\bar\nu_e$ emission from $\mu^+$ decay,
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Phys. Rev. Lett. 90 (2003) 181804,arXiv:hep-ex/0302017. From the abstract:We extract upper limits of the branching ratio for the LF violating decay $\mu^+ \to e^+ + \bar\nu_e + {}^{(}\bar{\nu}^{)}$ compared to the Standard Model (SM) $\mu^+ \to e^+ + \nu_e + \bar\nu_\mu$ decay: $BR < 0.9(1.7) \times 10^{-3}$ (90%CL) depending on the spectral distribution of $\bar\nu_e$ characterized by the Michel parameter $\tilde\rho=0.75 (0.0)$. These results improve earlier limits by one order of magnitude and restrict extensions of the SM in which $\bar\nu_e$ emission from $\mu^+$ decay is allowed with considerable strength. The decay $\mu^+ \to e^+ + \bar\nu_e + \nu_\mu$ as source for the $\bar\nu_e$ signal observed in the LSND experiment can be excluded. [Armbruster:2003pq]
Is the unitarity of the quark-mixing-CKM-matrix violated in neutron beta-decay?,
H. Abele et al.,
Phys. Rev. Lett. 88 (2002) 211801,arXiv:hep-ex/0206058. From the abstract:..., we find a deviation from the unitarity condition for the first row of the CKM matrix of $\Delta$ = 0.0083(28), which is 3.0 times the stated error. [Abele:2002wc]
A precise determination of electroweak parameters in neutrino nucleon scattering,
G. P. Zeller et al.(NuTeV),
Phys. Rev. Lett. 88 (2002) 091802,arXiv:hep-ex/0110059. From the abstract:The NuTeV collaboration has extracted the electroweak parameter sin2θW from the measurement of the ratios of neutral current to charged current neutrino and anti-neutrino cross-sections. Our value, sin2θW(on-shell)=0.2277±0.0013(stat)±0.0009(syst), is three standard deviations above the standard model prediction. [Zeller:2001hh]
Status of charged lepton flavour violation search with MEG II experiment,
Manuel Meucci,
Nuovo Cim. C43 (2020) 48,arXiv:1912.08656.
IFAE 2019. [Meucci:2019jog]
The first ever search for neutrinoless quadruple beta decay,
Pawel Guzowski,
arXiv:1804.00280, 2018.NuPhys2017 (London, 20-22 December 2017). [Guzowski:2018neg]
New limits on heavy neutrinos from Kaon experiments at CERN,
Karim Massri,
Nuovo Cim. C40 (2018) 170,arXiv:1706.03553.
La Thuile 2017. [Massri:2017zou]
The Sun in Hidden Photons,
Javier Redondo,
arXiv:1202.4932, 2012.7th Patras Workshop on Axions, WIMPs and WISPs, 27 June - 1 July 2011, Mykonos, Greece. [Redondo:2012ky]
IceCube as a discovery observatory for physics beyond the standard model,
K. Helbing(IceCube),
arXiv:1107.5227, 2011.46th Rencontres de Moriond. [Helbing:2011wf]
Search for lepton flavor violating $\tau \to \ell V^0$ decays at Belle,
K. Abe et al.(Belle),
arXiv:0708.3276, 2007.EPS 2007 and Lepton Photon 2007. [Abe:2007exa]
Searches for New Phenomena with Lepton Final States at the Tevatron,
T. Adams(CDF),
arXiv:0705.4679, 2007.XLIInd Renconstres de Moriond Electroweak 2007, La Thuile, Italy. [Adams:2007ji]
Precision Measurements in Neutron Decay,
Marc Schumann(PERKEO II),
arXiv:0705.3769, 2007.XLIInd Rencontres de Moriond - Electroweak Interactions and Unified Theories, March 10-17 2007, La Thuile, Italy. [Schumann:2007mu]
Search for Excited Neutrinos at HERA,
Cristinel Diaconu(H1),
arXiv:hep-ex/0607047, 2006.14th International Workshop on Deep Inelastic Scattering (DIS 2006), Tsukuba, Japan, April 20-24, 2006. [Diaconu:2006vb]
Study of the Lepton Flavor Violating Decay \tau^{-} \to \mu^{-} \eta,
BABAR Collaboration et al.(BABAR),
arXiv:hep-ex/0607045, 2006.ICHEP2006. [Aubert:2006uz]
Rare Decays and Search for New Physics with BaBar,
Johannes M. Bauer,
Frascati Phys. Ser. 40 (2006) 145-148,arXiv:hep-ex/0607041.
Fourth International Conference on Frontier Science - New Frontiers in Subnuclear Physics, September 12-17, 2005, Milan, Italy. [Bauer:2006uv]
Lepton Flavor Violation in tau decays at BaBar,
Swagato Banerjee(BABAR),
arXiv:hep-ex/0511045, 2005.XII Lomonosov Conference on Elementary Particle Physics, Moscow, Russia (25 - 31 August 2005). [Banerjee:2005mj]
Search for Lepton Flavour Violation in the Decay tau - > mu gamma,
J. M. Roney(BaBar),
Nucl. Phys. Proc. Suppl. 144 (2005) 155,arXiv:hep-ex/0412002.
[Roney:2004nf]
New Strange Asymmetry Results from NuTeV,
D. Mason(NuTeV),
arXiv:hep-ex/0405037, 2004.XXXIXth Rencontres de Moriond, QCD and high energy hadronic interactions, 2004. [Mason:2004yf]
Lepton Flavour Violating $\tau$ decays,
Swagato Banerjee,
arXiv:hep-ex/0405029, 2004.Lake Louise Winter Institute on Fundamental Interactions, Lake Louise, Alberta, Canada (LLWI, 15-21 Feb 2004). [Banerjee:2004uf]
Search for neutrinoless tau decays $\tau \to 3 \ell$ and $\tau \to \ell K^0_S$,
Y. Yusa et al.(BELLE),
eConf C0209101 (2002) TU13,arXiv:hep-ex/0211017.
Seventh International Workshop on Tau Lepton Physics (TAU02), Santa Cruz, Ca, USA, Sept 2002. [Yusa:2002ff]
Electroweak Results from NuTeV,
G.P. Zeller(NuTeV),
arXiv:hep-ex/0207037, 2002.37th Recontres de Moriond on Electroweak Interactions and Unified Theories, March 2002. [Zeller:2002dx]
Search for millicharged particles in proton-proton collisions at $\sqrt{s} = 13$ TeV,
A. Ball et al.,
Phys.Rev. D102 (2020) 032002,arXiv:2005.06518.
[Ball:2020dnx]
Improved Limits on Millicharged Particles Using the ArgoNeuT Experiment at Fermilab,
R. Acciarri et al.(ArgoNeuT),
Phys.Rev.Lett. 124 (2020) 131801,arXiv:1911.07996.
[Acciarri:2019jly]
Observation of Anomalous Internal Pair Creation in Be8 : A Possible Indication of a Light, Neutral Boson,
A. J. Krasznahorkay et al.,
Phys. Rev. Lett. 116 (2016) 042501,arXiv:1504.01527.
[Krasznahorkay:2015iga]
Search for the lepton flavour violating decay $\mu ^+ \rightarrow \mathrm {e}^+ \gamma $ with the full dataset of the MEG experiment,
A. M. Baldini et al.(MEG),
Eur. Phys. J. C76 (2016) 434,arXiv:1605.05081.
[TheMEG:2016wtm]
Muon polarization in the MEG experiment: predictions and measurements,
A. M. Baldini et al.(MEG),
Eur.Phys.J. C76 (2016) 223,arXiv:1510.04743.
[Baldini:2015lwl]
New limit on the lepton-flavour violating decay $\mu \to e \gamma$,
J. Adam et al.(MEG),
Phys. Rev. Lett. 107 (2011) 171801,arXiv:1107.5547.
[Adam:2011ch]
14 - Experiment - mu -> e + gamma - Conference Proceedings
Final Results of the MEG Experiment,
Toshinori Mori(MEG),
Nuovo Cim. C39 (2017) 325,arXiv:1606.08168.
Les Rencontres de Physique de la Vallee d'Aoste, La Thuile, March 6-12, 2016. [Mori:2016vwi]
$\mu{\to}e\gamma$ and $\mu{\to}eee$ Status and perspectives,
M. De Gerone(MEG),
arXiv:1108.2670, 2011.Ninth International Conference on Flavor Physics and CP Violation FPCP2011. [DeGerone:2011fg]
High-resolution measurement of the time-modulated orbital electron capture and of the $\beta^+$ decay of hydrogen-like $^{142}$Pm$^{60+}$ ions,
P. Kienle et al.(Two-Body-Weak-Decays),
Phys.Lett. B726 (2013) 638-645,arXiv:1309.7294.
[Kienle:2013kua]
Could the GSI Oscillations be Observed in a Standard Electron Capture Decay Experiment?,
Thomas Faestermann et al.,
Phys. Lett. B672 (2009) 227-229,arXiv:0807.3297.
[Faestermann:2008jt]
Search for Oscillation of the Electron-Capture Decay Probability of $^{142}$Pm,
P. A. Vetter et al.,
Phys. Lett. B670 (2008) 196-199,arXiv:0807.0649. From the abstract:We observed no oscillatory modulation at the proposed frequency at a level 31 times smaller than that reported by Litvinov et al. (Phys. Lett. B 664 (2008) 162; arXiv:0801.2079 [nucl-ex]). [Vetter:2008ne]
Lifetime measurements of nuclei in few-electron ions,
Thomas Faestermann,
Phys. Scripta T166 (2015) 014003,arXiv:1512.00431.
STORI'14. [Faestermann:2015mdp]
Time-modulation of entangled two-body weak decays with massive neutrinos,
P. Kienle,
Prog. Part. Nucl. Phys. 64 (2010) 439-444.10th International Spring Seminar On Nuclear Physics: New Quests In Nuclear Structure, 21-25 May 2010, Vietri sul Mare, Salerno, Italy [J. Phys. Conf. Ser.267,012056(2011)]. [Kienle:2010zz]
Two-body weak decay studies in an ion storage ring,
Paul Kienle,
J. Phys. Conf. Ser. 171 (2009) 012065.DISCRETE'08: Symposium on Prospects in the Physics of Discrete Symmetries, 11-16 Dec 2008, Valencia, Spain. [Kienle:2009zza]
Time-modulation of orbital electron capture decays by mixing of massive neutrinos,
P. Kienle,
Nucl. Phys. A827 (2009) 510C-517C.18th International Conference on Particles and Nuclei (PANIC 08), 9-14 Nov 2008, Eilat, Israel. [Kienle:2009zz]
Observation of Non-Exponential Orbital Electron Capture Decays of Hydrogen-Like $^{140}$Pr and $^{142}$Pm Ions and possible implications for the neutrino masses,
F. Bosch, 2008.Warsaw University, May 14, 2008.http://zsj.fuw.edu.pl/index_seminars_download.php?semid=10.
[Bosch-2008-Warsaw]
Non-Exponential Orbital Electron Capture Decays of Hydrogen-Like 140Pr and 142Pm Ions,
Yu.A. Litvinov, 2008.NO-VE 08, 15-18 April 2008, Venice, Italy.http://neutrino.pd.infn.it/NO-VE2008/Talks/Litvinov.ppt.
[Litvinov-2008-NOVE]
Tests of Lorentz invariance at the Sudbury Neutrino Observatory,
B. Aharmim et al.(SNO),
Phys.Rev. D98 (2018) 112013,arXiv:1811.00166.
[Aharmim:2018apr]
Search for a time-varying electron antineutrino signal at Daya Bay,
D. Adey et al.(Daya Bay),
Phys.Rev. D98 (2018) 092013,arXiv:1809.04660.
[Adey:2018qsd]
Neutrino Interferometry for High-Precision Tests of Lorentz Symmetry with IceCube,
M. G. Aartsen et al.(IceCube),
Nature Phys. 14 (2018) 961-966,arXiv:1709.03434.
[Aartsen:2017ibm]
Search for Lorentz and CPT violation using sidereal time dependence of neutrino flavor transitions over a short baseline,
Ko Abe et al.(T2K),
Phys.Rev. D95 (2017) 111101,arXiv:1703.01361.
[Abe:2017eot]
Search for time-independent Lorentz violation using muon neutrino to muon antineutrino transitions in MINOS,
P. Adamson et al.(MINOS),
arXiv:1605.03146, 2016. [Adamson:2016rvu]
Search for Violation of $CPT$ and Lorentz invariance in ${B_s^0}$ meson oscillations,
D0(D0),
Phys. Rev. Lett. 115 (2015) 161601,arXiv:1506.04123.
[Abazov:2015ana]
Direct Terrestrial Measurement of the Spatial Isotropy of the Speed of Light to 10$^{-18}$,
M. Nagel et al.,
Nature Commun. 6 (2015) 8174,arXiv:1412.6954.
[Nagel:2014aga]
Search for neutrino-antineutrino oscillations with a reactor experiment,
J.S. Diaz, T. Katori, J. Spitz, J.M. Conrad,
Phys.Lett. B727 (2013) 412-416,arXiv:1307.5789.
[Diaz:2013iba]
First Test of Lorentz Violation with a Reactor-based Antineutrino Experiment,
Y. Abe et al.(Double Chooz),
Phys. Rev. D86 (2012) 112009,arXiv:1209.5810.
[Abe:2012gw]
Search for Lorentz invariance and CPT violation with muon antineutrinos in the MINOS Near Detector,
P. Adamson et al.(The MINOS),
Phys. Rev. D85 (2012) 031101,arXiv:1201.2631.
[Adamson:2012hp]
Test of Lorentz and CPT violation with Short Baseline Neutrino Oscillation Excesses,
A. A. Aguilar-Arevalo et al.(MiniBooNE),
Phys. Lett. B718 (2013) 1303-1308,arXiv:1109.3480.
[AguilarArevalo:2011yi]
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.
[Adamson:2010rn]
Rotating Odd-Parity Lorentz Invariance Test in Electrodynamics,
Michael E. Tobar, Eugene N. Ivanov, Paul L. Stanwix, Jean-Michel G. le Floch, John G. Hartnett,
Phys. Rev. D80 (2009) 125024,arXiv:0909.2076.
[Tobar:2009gw]
Testing Lorentz Invariance and CPT Conservation with NuMI Neutrinos in the MINOS Near Detector,
P. Adamson et al.(MINOS),
Phys. Rev. Lett. 101 (2008) 151601,arXiv:0806.4945.
[Adamson:2008aa]
Search for anisotropic light propagation as a function of laser beam alignment relative to the Earth's velocity vector,
C. E. Navia et al.,
arXiv:astro-ph/0608223, 2006. [Navia:2006wz]
New CP-violation and preferred-frame tests with polarized electrons,
B. R. Heckel et al.,
Phys. Rev. Lett. 97 (2006) 021603,arXiv:hep-ph/0606218.
[Heckel:2006ww]
Tests of Lorentz violation in muon antineutrino to electron antineutrino oscillations,
L.B. Auerbach et al.(LSND),
Phys. Rev. D72 (2005) 076004,arXiv:hep-ex/0506067.
[Auerbach:2005tq]
First Search for Lorentz and CPT Violation in Double Beta Decay with EXO-200,
L.J. Kaufman(EXO-200),
arXiv:1608.05748, 2016.Seventh Meeting on CPT and Lorentz Symmetry, Bloomington, Indiana, June 20-24, 2016. [Kaufman:2016qwr]
Search for Lorentz Violation using Short-Range Tests of Gravity,
J. Long,
arXiv:1607.07092, 2016.Seventh Meeting on CPT and Lorentz Symmetry, Bloomington, Indiana, June 20-24, 2016. [Long:2016aet]
Lorentz Invariance Violation Limits from the Crab Pulsar using VERITAS,
Benjamin Zitzer(VERITAS),
arXiv:1307.8382, 2013.33rd International Cosmic Ray Conference (ICRC2013), Rio de Janeiro (Brazil). [Zitzer:2013gka]
Constraining Lorentz Violation with Fermi,
Vlasios Vasileiou for the Fermi LAT(GBMs),
arXiv:1008.2913, 2010.Fifth Meeting on CPT and Lorentz Symmetry, Bloomington, Indiana, June 28-July 2, 2010. [Vasileiou:2010ib]
Test for Lorentz and CPT Violation with the MiniBooNE Low-Energy Excess,
Teppei Katori(MiniBooNE),
arXiv:1008.0906, 2010.Fifth Meeting on CPT and Lorentz Symmetry, Bloomington, Indiana, June 28-July 2, 2010. [Katori:2010nf]
Test of Lorentz Symmetry by using a 3He/129Xe Co-Magnetometer,
K. Tullney et al.,
arXiv:1008.0579, 2010.Fifth Meeting on CPT and Lorentz Symmetry, Bloomington, Indiana, June 28 - July 2, 2010. [Tullney:2010cc]
Comprehensive analysis of beta decays within and beyond the Standard Model,
Adam Falkowski, Martin Gonzalez-Alonso, Oscar Naviliat-Cuncic,
arXiv:2010.13797, 2020. [Falkowski:2020pma]
Four-lepton Z-boson decay constraints on the SMEFT,
Radja Boughezal, Chien-Yi Chen, Frank Petriello, Daniel Wiegand,
arXiv:2010.06685, 2020. [Boughezal:2020klp]
Probing lepton number violating interactions in rare kaon decays,
Frank F. Deppisch, Kare Fridell, Julia Harz,
JHEP 2012 (2020) 186,arXiv:2009.04494.
[Deppisch:2020oyx]
Model Independent Bounds on the Non-Oscillatory Explanations of the MiniBooNE Excess,
Vedran Brdar, Oliver Fischer, Alexei Yu. Smirnov,
arXiv:2007.14411, 2020. [2007.14411]
Probing a new decay of vector-like top partner mediated by heavy Majorana neutrino via single production,
Hang Zhou, Ning Liu,
Phys.Rev. D101 (2020) 115028,arXiv:2006.05296.
[Zhou:2020byj]
$H^0\to \bar{\ell}_i\ell_j$ through TeV sterile neutrinos,
G. Hernandez-Tome, J. I. Illana, M. Masip,
Phys.Rev. D102 (2020) 113006,arXiv:2005.11234.
[Hernandez-Tome:2020lmh]
Heavy Neutral Leptons from kaon decays in the SHiP experiment,
Dmitry Gorbunov, Igor Krasnov, Yury Kudenko, Sergey Suvorov,
Phys.Lett. B810 (2020) 135817,arXiv:2004.07974.
[Gorbunov:2020rjx]
Searching for New Physics in Two-Neutrino Double Beta Decay,
Frank F. Deppisch, Lukas Graf, Fedor Simkovic,
Phys.Rev.Lett. 125 (2020) 171801,arXiv:2003.11836.
[Deppisch:2020mxv]
Beta decays as sensitive probes of lepton flavor universality,
Andreas Crivellin, Martin Hoferichter,
Phys.Rev.Lett. 125 (2020) 111801,arXiv:2002.07184.
[Crivellin:2020lzu]
CP Violation in Same-sign Dilepton Production at the LHC,
Fatemeh Najafi, Jacky Kumar, David London, Richard MacKenzie,
Phys.Rev. D102 (2020) 015025,arXiv:2002.01978.
[Najafi:2020lzv]
Effects of heavy Majorana neutrinos on lepton flavor violating processes,
G. Hernandez-Tome, J. I. Illana, G. Lopez Castro, M. Masip, P. Roig,
arXiv:1912.13327, 2019. [1912.13327]
Global Fit to Modified Neutrino Couplings and the Cabibbo-Angle Anomaly,
Antonio M. Coutinho, Andreas Crivellin, Claudio Andrea Manzari,
Phys.Rev.Lett. 125 (2020) 071802,arXiv:1912.08823.
[Coutinho:2019aiy]
Searches for Decays of New Particles in the DUNE Multi-Purpose Near Detector,
Jeffrey M. Berryman, Andre de Gouvea, Patrick J. Fox, Boris J. Kayser, Kevin J. Kelly, Jennifer L. Raaf,
JHEP 2002 (2020) 174,arXiv:1912.07622.
[Berryman:2019dme]
Sensitivity for four-body tau-lepton decays at Belle and Belle II experiments,
I. Dominguez, P. S. Mares Damas, P. L. M. Podesta Lerma, D. Rodriguez Perez,
arXiv:1912.01720, 2019. [Dominguez:2019jpq]
Searching for Heavy Neutrinos with the MoEDAL-MAPP Detector at the LHC,
Mariana Frank, Marc de Montigny, Pierre-Philippe A. Ouimet, James Pinfold, Ameir Shaa, Michael Staelens,
Phys.Lett. B802 (2020) 135204,arXiv:1909.05216.
[Frank:2019pgk]
Sensitivity of Lepton Number Violating Meson Decays in Different Experiments,
Eung Jin Chun, Arindam Das, Sanjoy Mandal, Manimala Mitra, Nita Sinha,
arXiv:1908.09562, 2019. [Chun:2019ycc]
A frequentist analysis of three right-handed neutrinos with GAMBIT,
Marcin Chrzaszcz, Marco Drewes, Tomas Gonzalo, Julia Harz, Suraj Krishnamurthy, Christoph Weniger,
Eur.Phys.J. C80 (2020) 569,arXiv:1908.02302.
[Chrzaszcz:2019inj]
Long Lived Particles Searches in Heavy Ion Collisions at the LHC,
Marco Drewes, Andrea Giammanco, Jan Hajer, Michele Lucente,
Phys.Rev. D101 (2020) 055002,arXiv:1905.09828.
[Drewes:2019vjy]
Testing new physics with future COHERENT experiments,
O. G. Miranda, G. Sanchez Garcia, O. Sanders,
Adv.High Energy Phys. 2019 (2019) 3902819,arXiv:1902.09036.
[Miranda:2019skf]
Reactor neutrino oscillations as constraints on Effective Field Theory,
Adam Falkowski, Martin Gonzalez-Alonso, Zahra Tabrizi,
JHEP 1905 (2019) 173,arXiv:1901.04553.
[Falkowski:2019xoe]
Proton Fixed-Target Scintillation Experiment to Search for Minicharged Particles,
Kevin J. Kelly, Yu-Dai Tsai,
Phys.Rev. D100 (2019) 015043,arXiv:1812.03998.
[Kelly:2018brz]
Final taus and initial state polarization signatures from effective interactions of Majorana neutrinos at future $e^{+}e^{-}$ colliders,
Lucia Duarte, Gabriel Zapata, Oscar A. Sampayo,
Eur.Phys.J. C79 (2019) 240,arXiv:1812.01154.
[Duarte:2018kiv]
Angular distribution as an effective probe of new physics in semi-hadronic three-body meson decays,
C. S. Kim, Seong Chan Park, Dibyakrupa Sahoo,
Phys.Rev. D100 (2019) 015005,arXiv:1811.08190.
[Kim:2018hlp]
Probing right handed neutrinos at the LHeC and lepton colliders using fat jet signatures,
Arindam Das, Sudip Jana, Sanjoy Mandal, S. Nandi,
Phys.Rev. D99 (2019) 055030,arXiv:1811.04291.
[Das:2018usr]
Tritium beta decay with additional emission of new light bosons,
Giorgio Arcadi, Julian Heeck, Florian Heizmann, Susanne Mertens, Farinaldo S. Queiroz, Werner Rodejohann, Martin Slezak, Kathrin Valerius,
JHEP 1901 (2019) 206,arXiv:1811.03530.
[Arcadi:2018xdd]
Severe Constraints on New Physics Explanations of the MiniBooNE Excess,
Johnathon R. Jordan, Yonatan Kahn, Gordan Krnjaic, Matthew Moschella, Joshua Spitz,
Phys.Rev.Lett. 122 (2019) 081801,arXiv:1810.07185.
[Jordan:2018qiy]
Asymmetry Observables and the Origin of $R_{D^{(*)}}$ Anomalies,
Pouya Asadi, Matthew R. Buckley, David Shih,
Phys.Rev. D99 (2019) 035015,arXiv:1810.06597.
[Asadi:2018sym]
Flavor violating leptonic decays of $\tau$ and $\mu$ leptons in the Standard Model with massive neutrinos,
G. Hernandez-Tome, G. Lopez Castro, P. Roig,
Eur.Phys.J. C79 (2019) 84,arXiv:1807.06050.
[Hernandez-Tome:2018fbq]
Prospects for exploring New Physics in Coherent Elastic Neutrino-Nucleus Scattering,
Julien Billard, Joseph Johnston, Bradley J. Kavanagh,
JCAP 1811 (2018) 016,arXiv:1805.01798.
[Billard:2018jnl]
Photons coming from an opaque obstacle as a manifestation of heavy neutrino decays,
Matias Reynoso, Ismael Romero, Oscar A. Sampayo,
Phys.Rev. D97 (2018) 095021,arXiv:1804.10065.
[Reynoso:2018ilm]
Constraints on new physics from $K \to \pi\nu\bar\nu$,
Xiao-Gang He, German Valencia, Keith Wong,
Eur.Phys.J. C78 (2018) 472,arXiv:1804.07449.
[He:2018uey]
Heavy neutral fermions at the high-luminosity LHC,
Juan Carlos Helo, Martin Hirsch, Zeren Simon Wang,
JHEP 1807 (2018) 056,arXiv:1803.02212.
[Helo:2018qej]
Lepton Flavorful Fifth Force and Depth-dependent Neutrino Matter Interactions,
Mark B. Wise, Yue Zhang,
JHEP 1806 (2018) 053,arXiv:1803.00591.
[Wise:2018rnb]
Angular and polarization trails from effective interactions of Majorana neutrinos at the LHeC,
Lucia Duarte, Gabriel Zapata, Oscar A. Sampayo,
Eur.Phys.J. C78 (2018) 352,arXiv:1802.07620.
[Duarte:2018xst]
Probing the Dirac or Majorana nature of the Heavy Neutrinos in pure leptonic decays at the LHC,
Carolina Arbelaez, Claudio Dib, Ivan Schmidt, Juan Carlos Vasquez,
Phys.Rev. D97 (2018) 055011,arXiv:1712.08704.
[Arbelaez:2017zqq]
$W^+ W^- H$ Production at Lepton Colliders: A New Hope for Heavy Neutral Leptons,
Julien Baglio, Silvia Pascoli, Cedric Weiland,
Eur.Phys.J. C78 (2018) 795,arXiv:1712.07621.
[Baglio:2017fxf]
Particle Physics with Gravitational Wave Detector Technology,
Christoph Englert, Stefan Hild, Michael Spannowsky,
EPL 123 (2018) 41001,arXiv:1712.04481.
[Englert:2017det]
COHERENT constraints to conventional and exotic neutrino physics,
D. K. Papoulias, T. S. Kosmas,
Phys.Rev. D97 (2018) 033003,arXiv:1711.09773.
[Kosmas:2017tsq]
Signatures of Dark Radiation in Neutrino and Dark Matter Detectors,
Yanou Cui, Maxim Pospelov, Josef Pradler,
Phys.Rev. D97 (2018) 103004,arXiv:1711.04531.
[Cui:2017ytb]
About heavy neutrinos: violation of lepton flavor in neutrinoless decays of leptons,
H. Novales-Sanchez, M. Salinas, J. J. Toscano,
J.Phys. G45 (2018) 095004,arXiv:1710.08474.
[Novales-Sanchez:2017crc]
Detecting a heavy neutrino electric dipole moment at the LHC,
Marc Sher, Justin Stevens,
Phys.Lett. B777 (2018) 246-249,arXiv:1710.06894.
[Sher:2017wya]
Excited neutrino search potential of the FCC-based electron-hadron colliders,
A. Caliskan,
Adv.High Energy Phys. 2017 (2017) 4726050,arXiv:1706.09797.
[Caliskan:2017fts]
GAMBIT: The Global and Modular Beyond-the-Standard-Model Inference Tool,
Peter Athron et al.(GAMBIT),
Eur.Phys.J. C77 (2017) 784,arXiv:1705.07908.
[Athron:2017ard]
Lepton Number Violation at Colliders from Kinematically Inaccessible Gauge Bosons,
Richard Ruiz,
Eur.Phys.J. C77 (2017) 375,arXiv:1703.04669.
[Ruiz:2017nip]
Effective LFV $H\ell_i\ell_j$ vertex from right-handed neutrinos within the Mass Insertion Approximation,
E. Arganda, M.J. Herrero, X. Marcano, R. Morales, A. Szynkman,
arXiv:1612.09290, 2016. [Arganda:2016qvs]
In-flight cLFV conversion: $e-\mu$, $e-\tau$ and $\mu-\tau$ in minimal extensions of the Standard Model with sterile fermions,
A. Abada, V. De Romeri, J. Orloff, A.M. Teixeira,
Eur.Phys.J. C77 (2017) 304,arXiv:1612.05548.
[Abada:2016vzu]
A unified resolution of the $R(D)$ and $R(D^*)$ anomalies and the lepton flavor violating decay $h\to\mu\tau$,
Debajyoti Choudhury, Anirban Kundu, Soumitra Nandi, Sunando Kumar Patra,
Phys.Rev. D95 (2017) 035021,arXiv:1612.03517.
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On Lepton-Number-Violating Searches for Muon to Positron Conversion,
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Phys.Rev. D95 (2017) 115010,arXiv:1611.00032.
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Phys.Lett. B763 (2016) 393-396,arXiv:1609.06113.
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Eur.Phys.J. C76 (2016) 416,arXiv:1604.06801.
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Phys. Rev. D93 (2016) 094026,arXiv:1604.03177.
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JHEP 1606 (2016) 019,arXiv:1604.00608.
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Int.J.Mod.Phys. A31 (2016) 1644006,arXiv:1604.00208.
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Reviews in Physics 1 (2016) 13-28,arXiv:1510.00414.
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JHEP 1502 (2015) 072,arXiv:1411.7305.
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Eur.Phys.J. C74 (2014) 3107,arXiv:1407.6908.
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JHEP 1410 (2014) 94,arXiv:1407.6607.
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JHEP 1411 (2014) 042,arXiv:1406.4914.
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JHEP 1409 (2014) 060,arXiv:1402.4431.
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Nuclear Physics B 874 (2013) , pp. 399-412,arXiv:1209.6627.
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JCAP JCAP11 (2012) 057,arXiv:1207.0810.
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JHEP 08 (2011) 106,arXiv:1103.4556.
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JHEP 05 (2011) 122,arXiv:1103.3015.
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JHEP 09 (2010) 104,arXiv:1006.5356.
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JHEP 11 (2010) 045,arXiv:1006.5063.
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JHEP 06 (2010) 068,arXiv:1005.0756.
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JHEP 09 (2009) 128,arXiv:0904.3002.
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Eur. Phys. J. C57 (2008) 763-768,arXiv:0802.2642.
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JCAP 0804 (2008) 029,arXiv:0711.2908.
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Constraining Non-Standard Neutrino-Electron Interactions,
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Phys. Rev. D77 (2008) 093014,arXiv:0711.0698.
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JHEP 0806 (2008) 033,arXiv:0709.2267.
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Probing Non-Standard Neutrino Interactions with Neutrino Factories,
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JHEP 12 (2007) 002,arXiv:0709.1980.
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Model-independent Analysis of Lepton Flavour Violating Tau Decays,
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JHEP 10 (2007) 039,arXiv:0707.0988.
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Supernovae as Probes of Extra Dimensions,
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Search for millicharged particles in reactor neutrino experiments: A Probe of the PVLAS anomaly,
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Phys. Rev. D75 (2007) 075014,arXiv:hep-ph/0612203.
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JCAP 0701 (2007) 005,arXiv:hep-ph/0609094.
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A Three-Flavor, Lorentz-Violating Solution to the LSND Anomaly,
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JHEP 0512 (2005) 021,arXiv:hep-ph/0508299.
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Probing New Physics by Comparing Solar and KamLAND Data,
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Phys. Rev. D67 (2003) 073012,arXiv:hep-ph/0210193.
[Loinaz:2002ep]
Nuclear Effects on the Extraction of $\sin^2\theta_W$,
Sergey Kovalenko, Ivan Schmidt, Jian-Jun Yang,
Phys. Lett. B546 (2002) 68-77,arXiv:hep-ph/0207158.
[Kovalenko:2002xe]
Electroweak data and the Higgs boson mass: A case for new physics,
Michael S. Chanowitz,
Phys. Rev. D66 (2002) 073002,arXiv:hep-ph/0207123.
[Chanowitz:2002cd]
Reply to the Comment on 'A Precise Determination of Electroweak Parameters in Neutrino-Nucleon Scattering',
G. P. Zeller et al.(NuTeV),
arXiv:hep-ex/0207052, 2002. [Zeller:2002et]
Precision electroweak tests of the standard model,
P B Renton,
Rept. Prog. Phys. 65 (2002) 1271-1330,arXiv:hep-ph/0206231. From the article:The main discrepancy from the NuTeV data with respect to the SM is in the value of $g^2_L$, which is about 1% below the SM prediction (2.5 $\sigma$ effect). The NuTeV analysis assumes that $s = \bar{s}$, for the strange sea. It has been suggested that if this equality is violated, such as $s - \bar{s} \approx 0.002$, as obtained from neutrino dimuon data, then a good fraction of the anomaly can be explained. However, NuTeV dimuon data give $s - \bar{s} \approx - 0.0027 \pm 0.0013$. That is, the measured NuTeV asymmetry has the opposite sign, and using this value would increase the significance of the anomaly. [Renton:2002wy]
Comment on 'A Precise Determination of Electroweak Parameters in Neutrino-Nucleon Scattering',
A. W. Thomas G. A. Miller,
Int. J. Mod. Phys. A20 (2005) 95,arXiv:hep-ex/0204007. From the abstract:We study a nuclear correction to the recent determination of the weak mixing angle, which arises from the higher-twist effects of nuclear shadowing, for which no allowance has been made in the NuTeV analysis. This correction may well be of the same size as the reported deviation. [Miller:2002xh]
$\nu_e \to \nu_s$ oscillations with large neutrino mass in NuTeV?,
Carlo Giunti, Marco Laveder,
arXiv:hep-ph/0202152, 2002. From the abstract:We propose an explanation of NuTeV anomaly in terms of oscillations of electron neutrinos into sterile neutrinos with average probability $P_{\nu_e \rightarrow \nu_s} = 0.21 \pm 0.07$. [Giunti:2002nh]
Old and new physics interpretations of the NuTeV anomaly,
S. Davidson, S. Forte, P. Gambino, N. Rius, A. Strumia,
JHEP 02 (2002) 037,arXiv:hep-ph/0112302. From the article:NuTeV not only predicts the $\nu_e$ and $\bar\nu_e$ fluxes through a Monte Carlo simulation but also measures them directly (see pag. 26 of transparencies in Ref.[McFarland:FNAL-26Oct2001]. The agreement between the two determinations is at the few % level, contradicts the oscillation interpretation. Comment:Ref.[McFarland:LaThuile2002] contains informations on the Energy Range of NuTeV precise direct measurement of the electron neutrino flux: $ 80 < E_\nu < 180 \, \mathrm{GeV}$. Below the NC peak, for energies $E_\nu < 80 \, \mathrm{GeV}$ the same measurement is about one order of magnitude less precise and, therefore, does not contradict the oscillation interpretation with appropriate values of the oscillation parameters. (M.L.). [Davidson:2001ji]
Applicability of the formulae of Bardin and Dokuchaeva for the radiative corrections analysis in the NuTeV experiment,
Arif Akhundov,
PoS NUFACT08 (2008) 115,arXiv:0807.2673.
NuFact08, 10th International Workshop on Neutrino Factories, Superbeams and Betabeams, Valencia, Spain, 30 June - 5 July 2008. [Akhundov:2008ym]
High energy neutrino in a nuclear environment: mirror asymmetry of the shadowing effect,
V.R. Zoller,
J. Phys. G32 (2006) 2305-2312,arXiv:hep-ph/0607078.
XXXIII International Conference on High Energy Physics 26.07.06-02.08.06 Moscow. [Zoller:2006su]
NuTeV Anomaly Versus Strange-Antistrange Asymmetry,
Bo-Qiang Ma,
Int. J. Mod. Phys. A21 (2006) 930,arXiv:hep-ph/0510127.
International Conference on QCD and Hadronic Physics, Beijing, China, June 16-20, 2005. [Ma:2005yt]
Shadowing and Antishadowing in Neutrino Deep Inelastic Scattering,
Ivan Schmidt,
Int. J. Mod. Phys. A21 (2006) 942,arXiv:hep-ph/0507095.
International Conference on QCD and Hadronic Physics, Beijing, China, June 16-20 2005. [Schmidt:2005bv]
Nuclear modification of valence-quark distributions and its effects on NuTeV $\sin^2 \theta_W$ anomaly,
M. Hirai, S. Kumano, T.-H. Nagai,
Nucl. Phys. Proc. Suppl. 149 (2005) 224,arXiv:hep-ph/0412307.
Sixth International Workshop on Neutrino Factories and Superbeams (NuFact04). [Hirai:2004hi]
On the Paschos-Wolfenstein Relationship for Nuclei,
S.A. Kulagin,
arXiv:hep-ph/0406220, 2004.XXXIX Recontres de Moriond 'Electroweak Interactions and Unified Theories', La Thuile, March 21-28, 2004. [Kulagin:2004xs]
Conventional Physics Explanations for the NuTeV $sin^2\theta_W$,
Kevin S. McFarland, Sven-Olaf Moch,
arXiv:hep-ph/0306052, 2003.Electroweak Precision Data and the Higgs Mass, DESY-Zeuthen 28 February 2003. From the article:The dominant source of electron neutrinos in the NuTeV beams are $K^\pm_{e3}$ decays. An interesting recent development comes from the BNL-E865 experiment which has recently measured a branching ratio for $K^\pm_{e3}$that is $6\%$ larger than the value used by NuTeV. If this result is correct, it is interesting to note that it would not disrupt the agreement between the direct and Monte Carlo measurements of the $\nu_e$ rate at NuTeV and that it would in fact {\em increase} the discrepancy of the NuTeV $\sin2\theta_W$ with the prediction by slightly less than one standard deviation. [McFarland:2003jw]
Precision electroweak measurements circa 2002,
Paolo Gambino,
Nucl.Phys.Proc.Suppl. 117 (2003) 211-215,arXiv:hep-ph/0211009.
31st International Conference on High Energy Physics (ICHEP 2002), Amsterdam, The Netherlands, 24-31 Jul 2002. [Gambino:2002xp]
Standard Model Explanations for the NuTeV Electroweak Measurements,
R.H. Bernstein(NuTeV),
J. Phys. G29 (2003) 1919,arXiv:hep-ex/0210061.
NuFact '02. [Bernstein:2002sa]
Conventional explanations for the NuTeV anomaly,
K. S. McFarland(NuTeV), 2002.Second International Workshop on Neutrino-Nucleus Interactions in the few-GeV Region, NUINT'02, December 12-15, 2002 University of California, Irvine.http://www.ps.uci.edu/~nuint/slides/McFarlandNuTeV.pdf.
[McFarland-NUINT02]
Dark Matter, Dark Radiation and Gravitational Waves from Mirror Higgs Parity,
David Dunsky, Lawrence J. Hall, Keisuke Harigaya,
JHEP 2002 (2020) 078,arXiv:1908.02756.
[Dunsky:2019upk]
The EDGES signal: An imprint from the mirror world?,
D. Aristizabal Sierra, Chee Sheng Fong,
Phys.Lett. B784 (2018) 130-136,arXiv:1805.02685.
[AristizabalSierra:2018emu]
Neutron Disappearance and Regeneration from Mirror State,
Zurab Berezhiani, Matthew Frost, Yuri Kamyshkov, Ben Rybolt, Louis Varriano,
Phys.Rev. D96 (2017) 035039,arXiv:1703.06735.
[Berezhiani:2017azg]
Electron Electric Dipole Moment in Mirror Fermion Model with Electroweak Scale Non-sterile Right-handed Neutrino,
Chia-Feng Chang, P. Q. Hung, Chrisna Setyo Nugroho, Van Que Tran, Tzu-Chiang Yuan,
Nucl.Phys. B928 (2018) 21-37,arXiv:1702.04516.
[Chang:2017vzi]
Dark Matter Candidates in a Visible Heavy QCD Axion Model,
Hajime Fukuda, Masahiro Ibe, Tsutomu T. Yanagida,
Phys.Rev. D95 (2017) 095017,arXiv:1702.00227.
[Fukuda:2017ywn]
Phenomenology of Standard Model in spontaneously broken mirror symmetry,
Igor T. Dyatlov,
Phys.Atom.Nucl. 80 (2017) 275-284,arXiv:1611.05635.
[Dyatlov:2016jaw]
The Origin of Matter-antimatter Asymmetry and Cold Dark Matter from The Mirror Extension of The Standard Model,
Wei-Min Yang,
Nucl. Phys. B885 (2014) 505-523,arXiv:1309.1955.
[Yang:2014jca]
A Naturally Light Sterile neutrino in an Asymmetric Dark Matter Model,
Yongchao Zhang, Xiangdong Ji, Rabindra N. Mohapatra,
JHEP 1310 (2013) 104,arXiv:1307.6178.
[Zhang:2013ama]
Collider signatures of mirror fermions in the framework of Left Right Mirror Model,
Shreyashi Chakdar, Kirtiman Ghosh, S. Nandi, Santosh Kumar Rai,
Phys. Rev. D 88,095005 (2013) 095005,arXiv:1305.2641.
[Chakdar:2013tca]
Mirror symmetry: from active and sterile neutrino masses to baryonic and dark matter asymmetries,
Pei-Hong Gu,
Nucl. Phys. B874 (2013) 158-176,arXiv:1303.6545.
[Gu:2013nya]
Mirror matter, inverse seesaw neutrino masses and the Higgs mass spectrum,
M. M. Candido, Y. A. Coutinho, P. C. Malta, J. A. Martins Simoes, A. J. Ramalho,
arXiv:1112.2152, 2011. [Candido:2011aa]
Spontaneous Mirror Parity Violation, Common Origin of Matter and Dark Matter, and the LHC Signatures,
Jian-Wei Cui, Hong-Jian He, Lan-Chun Lv, Fu-Rong Yin,
Phys. Rev. D85 (2012) 096003,arXiv:1110.6893.
[Cui:2011wk]
Neutron Oscillations to Parallel World: Earlier End to the Cosmic Ray Spectrum?,
Zurab Berezhiani, Askhat Gaziziov,
Eur. Phys. J. C72 (2012) 2111,arXiv:1109.3725.
[Berezhiani:2011da]
Comment on 'Three Extra Mirror or Sequential Families: Case for a Heavy Higgs Boson and Inert Doublet',
M. Sahin, S. Sultansoy, G. Unel,
arXiv:1108.3093, 2011. [Sahin:2011pu]
Mirror World and Superstring-Inspired Hidden Sector of the Universe, Dark Matter and Dark Energy,
C. R. Das, L. V. Laperashvili, H. B. Nielsen, A. Tureanu,
Phys. Rev. D84 (2011) 063510,arXiv:1101.4558.
[Das:2011gj]
Three Extra Mirror or Sequential Families: a Case for Heavy Higgs and Inert Doublet,
Homero Martinez, Alejandra Melfo, Fabrizio Nesti, Goran Senjanovic,
Phys. Rev. Lett. 106 (2011) 191802,arXiv:1101.3796.
[Martinez:2011ua]
A comprehensive analysis of the dark matter direct detection experiments in the mirror dark matter framework,
R. Foot,
Phys. Rev. D82 (2010) 095001,arXiv:1008.0685.
[Foot:2010hu]
Positronium Portal into Hidden Sector: A new Experiment to Search for Mirror Dark Matter,
Paolo Crivelli, Alexander Belov, Ulisse Gendotti, Sergei Gninenko, Andre Rubbia,
JINST 5 (2010) P08001,arXiv:1005.4802.
[Crivelli:2010bk]
Cosmological bounds on the 'millicharges' of mirror particles,
Zurab Berezhiani, Angela Lepidi,
Phys. Lett. B681 (2009) 276-281,arXiv:0810.1317.
[Berezhiani:2008gi]
Phenomenology and cosmology of millicharged particles and experimental prospects for their search,
Angela Lepidi,
arXiv:0809.4854, 2008.Diploma Thesis, University of L'Aquila, October 2007. [Lepidi:2008hb]
Thermodynamics of the early Universe with mirror dark matter,
Paolo Ciarcelluti, Angela Lepidi,
Phys. Rev. D78 (2008) 123003,arXiv:0809.0677.
[Ciarcelluti:2008vs]
Production of mirror fermions via $e\gamma$ and $ep$ collisions in the littlest Higgs model with T-parity,
Chong-Xing Yue, Li Ding, Jin-Yan Liu,
Phys. Rev. D77 (2008) 115003,arXiv:0803.4313.
[Yue:2008zp]
A simple explanation of the PVLAS anomaly in spontaneously broken mirror models,
R. Foot, A. Kobakhidze,
Phys. Lett. B650 (2007) 46-48,arXiv:hep-ph/0702125.
[Foot:2007cq]
Mirror matter admixtures in $K_S \to \gamma \gamma$,
Gabriel Sanchez-Colon, Augusto Garcia,
Int. J. Mod. Phys. A21 (2006) 4197-4207,arXiv:hep-ph/0610271.
[SanchezColon:2006kj]
Mirror matter admixtures in $K_L \to \mu^+ \mu^-$,
Gabriel Sanchez-Colon, Augusto Garcia,
Mod. Phys. Lett. A22 (2007) 2387-2396,arXiv:hep-ph/0610261.
[SanchezColon:2006uf]
Symmetry limit properties of decay amplitudes with mirror matter admixtures,
Gabriel Sanchez-Colon, Augusto Garcia,
Int. J. Mod. Phys. A22 (2007) 2265,arXiv:hep-ph/0610259.
[SanchezColon:2006ud]
Natural electroweak symmetry breaking in generalised mirror matter models,
R. Foot, R. R. Volkas,
Phys. Lett. B645 (2007) 75-81,arXiv:hep-ph/0610013.
[Foot:2006ru]
Implications of the DAMA/NaI and CDMS experiments for mirror matter-type dark matter,
R. Foot,
Phys. Rev. D74 (2006) 023514,arXiv:astro-ph/0510705.
[Foot:2005ic]
Some Implications of Neutron Mirror Neutron Oscillation,
R.N. Mohapatra, S. Nasri, S. Nussinov,
Phys. Lett. B627 (2005) 124,arXiv:hep-ph/0508109.
[Mohapatra:2005ng]
Cosmology with mirror dark matter II: Cosmic Microwave Background and Large Scale Structure,
P. Ciarcelluti,
Int. J. Mod. Phys. D14 (2005) 223,arXiv:astro-ph/0409633.
[Ciarcelluti:2004ip]
Cosmology with mirror dark matter I: linear evolution of perturbations,
P. Ciarcelluti,
Int. J. Mod. Phys. D14 (2005) 187,arXiv:astro-ph/0409630.
[Ciarcelluti:2004ik]
Avoiding BBN Constraints on Mirror Models for Sterile Neutrinos,
R. N. Mohapatra, S. Nasri,
Phys. Rev. D71 (2005) 053001,arXiv:hep-ph/0407194.
[Mohapatra:2004uy]
Reconciling the positive DAMA annual modulation signal with the negative results of the CDMS II experiment,
R. Foot,
Mod. Phys. Lett. A19 (2004) 1841,arXiv:astro-ph/0405362.
[Foot:2004gh]
Supernova explosions, 511 keV photons, gamma ray bursts and mirror matter,
R. Foot, Z. K. Silagadze,
Int. J. Mod. Phys. D14 (2005) 143,arXiv:astro-ph/0404515.
[Foot:2004kd]
Exploring the mirror matter interpretation of the DAMA experiment: Has the dark matter problem been solved?,
R. Foot,
arXiv:astro-ph/0403043, 2004. [Foot:2004ej]
Explaining $\Omega_{\mathrm{Baryon}} \approx 0.2 \, \Omega_{\mathrm{Dark}}$ through the synthesis of ordinary matter from mirror matter: a more general analysis,
R. Foot, R. R. Volkas,
Phys. Rev. D69 (2004) 123510,arXiv:hep-ph/0402267.
[Foot:2004pq]
Structure Formation with Mirror Dark Matter: CMB and LSS,
Zurab Berezhiani, Paolo Ciarcelluti, Denis Comelli, Francesco L. Villante,
Int. J. Mod. Phys. D14 (2005) 107,arXiv:astro-ph/0312605.
[Berezhiani:2003wj]
Phenomenology of Standard Model in spontaneously broken mirror symmetry,
Igor T. Dyatlov,
Phys.Atom.Nucl. 80 (2017) 275-284,arXiv:1611.05635.
[Dyatlov:2016jaw]
GeV Scale Asymmetric Dark Matter from Mirror Universe: Direct Detection and LHC Signatures,
Jian-Wei Cui, Hong-Jian He, Lan-Chun Lv, Fu-Rong Yin,
Int. J. Mod. Phys. Conf. Ser. 10 (2012) 21-34,arXiv:1203.0968.
International Symposium on Cosmology and Particle Astrophysics (CosPA2011). [Cui:2012mq]
Early Universe cosmology with mirror dark matter,
Paolo Ciarcelluti,
AIP Conf. Proc. 1241 (2010) 351-360,arXiv:0911.3592.
Invisible Universe International Conference, Paris, June 29 - July 3 2009. [Ciarcelluti:2009da]
On the Possible Observation of Mirror Matter,
Tarek Ibrahim, Pran Nath,
Nucl. Phys. Proc. Suppl. 200-202 (2010) 161-168,arXiv:0910.1303.
International Workshop on 'Beyond the Standard Model Physics and LHC Signatures (BSM-LHC),' Northeastern University, 2-4 June, 2009. [Ibrahim:2009uv]
Dark Energy and Dark Matter, Mirror World and E_6 Unification,
C.R. Das, L.V. Laperashvili,
arXiv:0712.0253, 2007.Conference of Russian Academy of Sciences: Fundamental Interactions Physics, ITEP, Moscow, Russia, Nov 26-30, 2007. [Das:2007vt]
Mirror particles and mirror matter: 50 years of speculations and searches,
L.B. Okun,
Phys. Usp. 50 (2007) 380-389,arXiv:hep-ph/0606202.
ITEP Meeting on the future of heavy flavor physics, Moscow, ITEP, July 24-25, 2006. [Okun:2006eb]
Mirror World and Axion: Relaxing Cosmological Bounds,
Giannotti Maurizio,
Int. J. Mod. Phys. A20 (2005) 2454,arXiv:astro-ph/0504636.
VI Friedmann Seminar, France, Corsica, Cargese, 2004. [Giannotti:2005eb]
Structure formation, CMB and LSS in a mirror dark matter scenario,
P. Ciarcelluti,
Frascati Phys. Ser. 555 (2004) 1,arXiv:astro-ph/0409629.
'Frontier Science 2004' (Frascati, Italy, 14-19 June 2004). [Ciarcelluti:2004ij]
Mirror matter,
A.Yu.Ignatiev, R.R.Volkas,
arXiv:hep-ph/0306120, 2003.15th Biennual Congress of the Australian Institute of Physics (Sydney, July 2002). [Ignatiev:2003sy]
Mirror objects in the solar system?,
Z. K. Silagadze,
Acta. Phys. Polon. B33 (2002) 1325-1341,arXiv:astro-ph/0110161.
Tunguska 2001: International Conference, Moscow, Russia, 30 June - 1 Jul 2001. [Silagadze:2001er]
TeV scale gravity, mirror universe, and... dinosaurs,
Z. K. Silagadze,
Acta Phys. Polon. B32 (2001) 99-128,arXiv:hep-ph/0002255.
Gran Sasso Summer Institute: Massive Neutrinos in Physics and Astrophysics, 13-24 September, 1999. [Silagadze:1999gr]
32 - Phenomenology - Violation of Lorentz Invariance
Lorentz Invariance Violation effects on UHECR propagation: a geometrized approach,
M.D.C. Torri, S. Bertini, M. Giammarchi, L. Miramonti,
JHEAp 18 (2018) 5-14,arXiv:1906.06948.
[Torri:2018qka]
Neutrino Splitting for Lorentz-Violating Neutrinos: Detailed Analysis,
G. Somogyi, I. Nandori, U. D. Jentschura,
Phys.Rev. D100 (2019) 035036,arXiv:1904.10505.
[Somogyi:2019yis]
Multimessenger Tests of Einstein's Weak Equivalence Principle and Lorentz Invariance with a High-energy Neutrino from a Flaring Blazar,
Jun-Jie Wei, Bin-Bin Zhang, Lang Shao, He Gao, Ye Li, Qian-Qing Yin, Xue-Feng Wu, Xiang-Yu Wang, Bing Zhang, Zi-Gao Dai,
JHEAp 22 (2019) 1-4,arXiv:1807.06504.
[Wei:2018ajw]
Limits on Neutrino Lorentz Violation from Multimessenger Observations of TXS 0506+056,
John Ellis, Nikolaos E. Mavromatos, Alexander S. Sakharov, Edward K. Sarkisyan-Grinbaum,
Phys.Lett. B789 (2019) 352-355,arXiv:1807.05155.
[Ellis:2018ogq]
Shadowing Neutrino Mass Hierarchy with Lorentz Invariance Violation,
H. Jurkovich, Pedro Pasquini, C. P. Ferreira,
arXiv:1806.08752, 2018. [Jurkovich:2018rif]
Neutrino oscillations and Lorentz Invariance Violation in a Finslerian Geometrical model,
V. Antonelli, L. Miramonti, M.D.C. Torri,
Eur.Phys.J. C78 (2018) 667,arXiv:1803.08570.
[Antonelli:2018fbv]
Distinguishing between Dirac and Majorana neutrinos in the presence of general interactions,
Werner Rodejohann, Xun-Jie Xu, Carlos E. Yaguna,
JHEP 1705 (2017) 024,arXiv:1702.05721.
[Rodejohann:2017vup]
Lorentz invariance violation in the neutrino sector: a joint analysis from big bang nucleosynthesis and the cosmic microwave background,
Wei-Ming Dai, Zong-Kuan Guo, Rong-Gen Cai, Yuan-Zhong Zhang,
Eur.Phys.J. C77 (2017) 386,arXiv:1701.02553.
[Dai:2017sst]
Lorentz violation and deep inelastic scattering,
Alan Kostelecky, E. Lunghi, A.R. Vieira,
Phys.Lett. B769 (2017) 272-280,arXiv:1610.08755.
[Kostelecky:2016pyx]
Effects of the Lorentz invariance violation in Coulomb interaction in nuclei and atoms,
V.V. Flambaum, M.V. Romalis,
Phys.Rev.Lett. 118 (2017) 142501,arXiv:1610.08188.
[Flambaum:2016dwc]
Searching for photon-sector Lorentz violation using gravitational-wave detectors,
Alan Kostelecky, Adrian C. Melissinos, Matthew Mewes,
Phys.Lett. B761 (2016) 1-7,arXiv:1608.02592.
[Kostelecky:2016kkn]
Limits on the Neutrino Velocity, Lorentz Invariance, and the Equivalence Principle with TeV neutrinos from Gamma-Ray Bursts,
Jun-Jie Wei, Xue-Feng Wu, He Gao, Peter Meszaros,
JCAP 1608 (2016) 031,arXiv:1603.07568.
[Wei:2016ygk]
Testing the equivalence principle and Lorentz invariance with the PeV neutrino from blazar PKS B1424-418,
Zi-Yi Wang, Ruo-Yu Liu, Xiang-Yu Wang,
Phys. Rev. Lett. 116 (2016) 151101,arXiv:1602.06805.
[Wang:2016lne]
Tests of Lorentz and CPT symmetry with hadrons and nuclei,
J. P. Noordmans, J. de Vries, R. G. E. Timmermans,
Phys. Rev. C94 (2016) 025502,arXiv:1602.00496.
[Noordmans:2016pkr]
Lorentz and CPT Violation in Top-Quark Production and Decay,
Micheal S. Berger, Alan Kostelecky, Zhi Liu,
Phys. Rev. D93 (2016) 036005,arXiv:1509.08929.
[Berger:2015yha]
Lorentz and CPT tests with hydrogen, antihydrogen, and related systems,
Alan Kostelecky, Arnaldo J. Vargas,
Phys. Rev. D92 (2015) 056002,arXiv:1506.01706.
[Kostelecky:2015nma]
Constraining CPT-even and Lorentz-violating nonminimal couplings with the electron magnetic and electric dipole moments,
J. B. Araujo, R. Casana, Manoel M. Ferreira Jr,
Phys. Rev. D92 (2015) 025049,arXiv:1505.05592.
[Araujo:2015zsa]
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.
[Banik:2014rha]
Tests of Lorentz and CPT Violation in the Medium Baseline Reactor Antineutrino Experiment,
Yu-Feng Li, Zhen-hua Zhao,
Phys. Rev. D90 (2014) 113014,arXiv:1409.6970.
[Li:2014rya]
Laboratory tests of Lorentz and CPT symmetry with muons,
Andre H. Gomes, Alan Kostelecky, Arnaldo J. Vargas,
Phys. Rev. D90 (2014) 076009,arXiv:1407.7748.
[Gomes:2014kaa]
Tests of CPT and Lorentz symmetry from muon anomalous magnetic dipole moment,
Y. V. Stadnik, B. M. Roberts, V. V. Flambaum,
Phys. Rev. D90 (2014) 045035,arXiv:1407.5728.
[Stadnik:2014ava]
Probing Lorentz and CPT Violation in a Magnetized Iron Detector using Atmospheric Neutrinos,
Animesh Chatterjee, Raj Gandhi, Jyotsna Singh,
JHEP 1406 (2014) 045,arXiv:1402.6265.
[Chatterjee:2014oda]
On the use of energy loss mechanisms to constrain Lorentz invariance violations,
Diego Mazon,
Phys. Rev. D89 (2014) 056012,arXiv:1401.2964.
[Mazon:2014bua]
Equations for massless and massive spin-1/2 particles with varying speed and neutrino in matter,
S. I. Kruglov,
Int.J.Mod.Phys. A29 (2014) 1450031,arXiv:1312.4837.
[Kruglov:2013oia]
Testing Relativity with High-Energy Astrophysical Neutrinos,
Jorge S. Diaz, Alan Kostelecky, Matthew Mewes,
Phys. Rev. D89 (2014) 043005,arXiv:1308.6344.
[Diaz:2013wia]
Contributions to Pion Decay from Lorentz Violation in the Weak Sector,
Brett Altschul,
Phys. Rev. D88 (2013) 076015,arXiv:1308.2602.
[Altschul:2013yja]
Lorentz-Violating Regulator Gauge Fields as the Origin of Dynamical Flavour Oscillations,
Jean Alexandre, Julio Leite, Nick E. Mavromatos,
Phys. Rev. D87 (2013) 125029,arXiv:1304.7706.
[Alexandre:2013tya]
Limits on violations of Lorentz symmetry and the Einstein equivalence principle using radio-frequency spectroscopy of atomic dysprosium,
M. A. Hohensee et al.,
Phys. Rev. Lett. 111 (2013) 050401,arXiv:1303.2747.
[Hohensee:2013cya]
Possible relevance of quantum spacetime for neutrino-telescope data analyses,
Giovanni Amelino-Camelia, Dafne Guetta, Tsvi Piran,
arXiv:1303.1826, 2013. [Amelino-Camelia:2013jga]
Lorentz violation in neutron and allowed nuclear beta decay,
J. P. Noordmans, H. W. Wilschut, R. G. E. Timmermans,
Phys. Rev. C87 (2013) 055502,arXiv:1302.2730.
[Noordmans:2013xga]
Constraints on relativity violations from gamma-ray bursts,
Alan Kostelecky, Matthew Mewes,
Phys. Rev. Lett. 110 (2013) 201601,arXiv:1301.5367.
[Kostelecky:2013rv]
The Search for Neutrino-Antineutrino Mixing Resulting from Lorentz Invariance Violation using neutrino interactions in MINOS,
B. Rebel, S. Mufson,
Astropart.Phys. 48 (2013) 78-81,arXiv:1301.4684.
[Rebel:2013vc]
Implications of ultra-high energy neutrino flux constraints for Lorentz-invariance violating cosmogenic neutrinos,
P. W. Gorham et al.,
Phys. Rev. D86 (2012) 103006,arXiv:1207.6425.
[Gorham:2012qs]
Tests of Lorentz and CPT violation with MiniBooNE neutrino oscillation excesses,
Teppei Katori(MiniBooNE),
Mod. Phys. Lett. A27 (2012) 1230024,arXiv:1206.6915.
[Katori:2012pe]
Neutrino Velocity and the Variability of Fundamental Constants,
Victor Flambaum, Maxim Pospelov,
Phys. Rev. D86 (2012) 107502,arXiv:1206.1031.
[Flambaum:2012vg]
Testing Violations of Lorentz Invariance with Cosmic-Rays,
R. Cowsik, T. Madziwa-Nussinov, S. Nussinov, U. Sarkar,
Phys. Rev. D86 (2012) 045024,arXiv:1206.0713.
[Cowsik:2012qm]
High energy neutrino oscillation at the presence of the Lorentz Invariance Violation,
Iman Motie, She-Sheng Xue,
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GRB 051221A and Tests of Lorentz Symmetry,
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JCAP 0605 (2006) 017,arXiv:astro-ph/0601556.
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Test of Lorentz Violation with Astrophysical Neutrino Flavor in IceCube,
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