MINERvA

(Main INjector ExpeRiment for v-A)

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References

1 - Reviews

[1-1]
Exploring Neutrino-Nucleus Interactions in the GeV Regime using MINERvA, X.-G. Lu et al. (The MINERvA), Eur.Phys.J.ST (2021), arXiv:2107.02064.
[MINERvA:2021csy]

2 - Interactions

[2-1]
Measurement of Electron Neutrino and Antineutrino Cross Sections at Low Momentum Transfer, S. Henry et al. (MINERvA), arXiv:2312.16631, 2023.
[MINERvA:2023ner]
[2-2]
Measurement of the Multi-Neutron $\bar{\nu}_{\mu}$ Charged Current Differential Cross Section at Low Available Energy on Hydrocarbon, A. Olivier et al. (MINERvA), Phys.Rev.D 108 (2023) 112010, arXiv:2310.17014.
[MINERvA:2023ikp]
[2-3]
Simultaneous measurement of muon neutrino quasielastic-like cross sections on CH, C, water, Fe, and Pb as a function of muon kinematics at MINERvA, J. Kleykamp et al. (MINERvA), Phys.Rev.Lett. 130 (2023) 161801, arXiv:2301.02272.
[MINERvA:2023kuz]
[2-4]
High-Statistics Measurement of Antineutrino Quasielastic-like scattering at $E_\nu \sim$ 6\textasciitilde{}GeV on a Hydrocarbon Target, A. Bashyal et al. (MINERvA), Phys.Rev.D 108 (2023) 032018, arXiv:2211.10402.
[MINERvA:2022bno]
[2-5]
Neutrino-induced coherent $\pi^{+}$ production in C, CH, Fe and Pb at $\langle E_{\nu}\rangle \sim 6$ GeV, M. A. Ramirez et al. (MINERvA), arXiv:2210.01285, 2022.
[MINERvA:2022fiv]
[2-6]
Simultaneous measurement of muon neutrino $\nu_\mu$ charged-current single $\pi^+$ production in CH, C, H$_2$O, Fe, and Pb targets in MINERvA, A. Bercellie et al. (MINERvA), Phys.Rev.Lett. 131 (2023) 011801, arXiv:2209.07852.
[MINERvA:2022djk]
[2-7]
Improved constraint on the MINERvA medium energy neutrino flux using $\bar{\nu}e^{-} \!\rightarrow \bar{\nu}e^{-}$ data, L. Zazueta et al. (MINERvA), Phys.Rev.D 107 (2023) 012001, arXiv:2209.05540.
[MINERvA:2022vmb]
[2-8]
Simultaneous measurement of proton and lepton kinematics in quasielastic-like $\nu_{\mu}$-hydrocarbon interactions from 2 to 20 GeV, D. Ruterbories et al. (MINERvA), Phys.Rev.Lett. 129 (2022) 021803, arXiv:2203.08022.
[MINERvA:2022mnw]
[2-9]
Measurement of inclusive charged-current $\nu_{\mu}$ scattering on hydrocarbon at $\langle E_\nu \rangle \sim 6$ GeV with low three-momentum transfer, M. V. Ascencio et al. (MINERvA), Phys.Rev.D 106 (2022) 032001, arXiv:2110.13372.
[MINERvA:2021wjs]
[2-10]
Measurement of inclusive charged-current $\nu_\mu$ cross sections as a function of muon kinematics at $ < E_\nu > \sim6~GeV$ on hydrocarbon, D. Ruterbories et al. (MINERvA), Phys.Rev.D 104 (2021) 092007, arXiv:2106.16210.
[MINERvA:2021owq]
[2-11]
Double-Differential Inclusive Charged-Current $\nu_\mu$ Cross Sections on Hydrocarbon in MINERvA at $\langle E_\nu \rangle \sim$ 3.5 GeV, A. Filkins et al. (MINERvA), Phys.Rev.D 101 (2020) 112007, arXiv:2002.12496.
[MINERvA:2020zzv]
[2-12]
Probing Nuclear Effects with Neutrino-induced Charged-Current Neutral Pion Production, D. Coplowe et al. (MINERvA), Phys.Rev. D102 (2020) 072007, arXiv:2002.05812.
[MINERvA:2020anu]
[2-13]
High-statistics measurement of neutrino quasielastic-like scattering at < E_nu > =~6 GeV on a hydrocarbon target, M. F. Carneiro et al. (MINERvA), Phys.Rev.Lett. 124 (2020) 121801, arXiv:1912.09890.
[MINERvA:2019gsf]
[2-14]
Measurement of $\bar{\nu}_{\mu}$ charged-current single $\pi^{-}$ production on hydrocarbon in the few-GeV region using MINERvA, T. Le et al. (MINERvA), Phys.Rev. D100 (2019) 052008, arXiv:1906.08300.
[MINERvA:2019rhx]
[2-15]
Constraint of the MINERvA Medium Energy Neutrino Flux using Neutrino-Electron Elastic Scattering, E. Valencia et al. (MINERvA), Phys.Rev. D100 (2019) 092001, arXiv:1906.00111.
[MINERvA:2019hhc]
[2-16]
Neutron measurements from anti-neutrino hydrocarbon reactions, M. Elkins et al. (MINERvA), Phys.Rev. D100 (2019) 052002, arXiv:1901.04892.
[MINERvA:2019wqe]
[2-17]
Measurement of Quasielastic-Like Neutrino Scattering at $\left < E_\nu \right > \sim 3.5$~ GeV on a Hydrocarbon Target, D. Ruterbories et al. (MINERvA), Phys.Rev. D99 (2019) 012004, arXiv:1811.02774.
[MINERvA:2018hqn]
[2-18]
Measurement of final-state correlations in neutrino muon-proton mesonless production on hydrocarbon at $\langle E_\nu\rangle=3$ GeV, X. -G. Lu et al. (MINERvA), Phys. Rev. Lett. 121 (2018) 022504, arXiv:1805.05486.
[MINERvA:2018hba]
[2-19]
Anti-neutrino charged-current reactions on scintillator with low momentum transfer, R. Gran et al. (MINERvA), Phys.Rev.Lett. 120 (2018) 221805, arXiv:1803.09377.
[MINERvA:2018nab]
[2-20]
Measurement of the muon anti-neutrino double-differential cross section for quasi-elastic scattering on hydrocarbon at~$E_\nu\sim 3.5$ GeV, C. E. Patrick et al., Phys.Rev. D97 (2018) 052002, arXiv:1801.01197.
[MINERvA:2018vjb]
[2-21]
Measurement of Total and Differential Cross Sections of Neutrino and Antineutrino Coherent $\pi^\pm$ Production on Carbon, A. Mislivec et al. (Minerva), Phys.Rev. D97 (2018) 032014, arXiv:1711.01178.
[MINERvA:2017ipy]
[2-22]
Direct Measurement of Nuclear Dependence of Charged Current Quasielastic-like Neutrino Interactions using MINERvA, M. Betancourt et al. (Minerva), Phys.Rev.Lett. 119 (2017) 082001, arXiv:1705.03791.
[MINERvA:2017dzh]
[2-23]
Measurement of the antineutrino to neutrino charged-current interaction cross section ratio in MINERvA, L. Ren et al. (Minerva), Phys.Rev. D95 (2017) 072009, arXiv:1701.04857.
[MINERvA:2017ozn]
[2-24]
Measurement of neutral-current $K^+$ production by neutrinos using MINERvA, C.M. Marshall et al. (MINERvA), Phys.Rev.Lett. 119 (2017) 011802, arXiv:1611.02224.
[MINERvA:2016ymg]
[2-25]
Measurements of the Inclusive Neutrino and Antineutrino Charged Current Cross Sections in MINERvA Using the Low-$\nu$ Flux Method, J. DeVan et al. (MINERvA), Phys. Rev. D94 (2016) 112007, arXiv:1610.04746.
[MINERvA:2016ing]
[2-26]
First evidence of coherent $K^{+}$ meson production in neutrino-nucleus scattering, Z. Wang et al. (MINERvA), Phys.Rev.Lett. 117 (2016) 061802, arXiv:1606.08890.
[MINERvA:2016cun]
[2-27]
Cross sections for neutrino and antineutrino induced pion production on hydrocarbon in the few-GeV region using MINERvA, C.L. McGivern et al. (MINERvA), Phys. Rev. D94 (2016) 052005, arXiv:1606.07127.
[MINERvA:2016sfc]
[2-28]
Measurement of $K^{+}$ production in charged-current $\nu_\mu$ interactions, C.M. Marshall et al. (MINERvA), Phys. Rev. D94 (2016) 012002, arXiv:1604.03920.
[MINERvA:2016zyp]
[2-29]
Evidence for neutral-current diffractive neutral pion production from hydrogen in neutrino interactions on hydrocarbon, J. Wolcott et al. (MINERvA), Phys. Rev. Lett. 117 (2016) 111801, arXiv:1604.01728.
[MINERvA:2016uck]
[2-30]
Measurement of Partonic Nuclear Effects in Deep-Inelastic Neutrino Scattering using MINERvA, J. Mousseau et al. (MINERvA), Phys. Rev. D93 (2016) 071101, arXiv:1601.06313.
[MINERvA:2016oql]
[2-31]
Measurement of Neutrino Flux from Neutrino-Electron Elastic Scattering, J. Park et al. (MINERvA), Phys. Rev. D93 (2016) 112007, arXiv:1512.07699.
[MINERvA:2015nqi]
[2-32]
Identification of nuclear effects in neutrino-carbon interactions at low three-momentum transfer, P. A. Rodrigues et al. (MINERvA), Phys. Rev. Lett. 116 (2016) 071802, arXiv:1511.05944.
[MINERvA:2015ydy]
[2-33]
Measurement of electron neutrino quasielastic and quasielastic-like scattering on hydrocarbon at $\langle E_\nu \rangle $ = 3.6 GeV, J. Wolcott et al. (MINERvA), Phys. Rev. Lett. 116 (2016) 081802, arXiv:1509.05729.
[MINERvA:2015jih]
[2-34]
Single neutral pion production by charged-current $\bar\nu_\mu$ interactions on hydrocarbon at $\langle E_\nu\rangle = $ 3.6 GeV, L. Aliaga et al., Phys. Lett. B749 (2015) 130-136, arXiv:1503.02107.
[MINERvA:2015slz]
[2-35]
Measurement of muon plus proton final states in $\nu_{\mu}$ interactions on hydrocarbon at $ < E_{\nu} > = $ 4.2 GeV, T. Walton et al. (MINERvA), Phys. Rev. D91 (2015) 071301, arXiv:1409.4497.
[MINERvA:2014ypj]
[2-36]
Measurement of Coherent Production of $\pi^\pm$ in Neutrino and Anti-Neutrino Beams on Carbon from $E_\nu$ of $1.5$ to $20$ GeV, A. Higuera et al. (MINERvA), Phys. Rev. Lett. 113 (2014) 261802, arXiv:1409.3835.
[MINERvA:2014ani]
[2-37]
Charged Pion Production in $\nu_\mu$ Interactions on Hydrocarbon at $\langle E_\nu\rangle$= 4.0 GeV, B. Eberly et al. (MINERvA), Phys. Rev. D92 (2015) 092008, arXiv:1406.6415.
[MINERvA:2014ogb]
[2-38]
Measurement of Ratios of $\nu_\mu$ Charged-Current Cross Sections on C, Fe, and Pb to CH at Neutrino Energies 2-20 GeV, B. G. Tice et al. (MINERvA), Phys. Rev. Lett. (2014), arXiv:1403.2103.
[MINERvA:2014rdw]
[2-39]
Measurement of Muon Neutrino Quasi-Elastic Scattering on a Hydrocarbon Target at $E_\nu \sim 3.5 \, \text{GeV}$, G. A. Fiorentini et al. (MINERvA), Phys. Rev. Lett. 111, 022502 (2013) 022502, arXiv:1305.2243.
[MINERvA:2013kdn]
[2-40]
Measurement of Muon Antineutrino Quasi-Elastic Scattering on a Hydrocarbon Target at $E_\nu \sim 3.5 \, \text{GeV}$, L. Fields et al. (MINERvA), Phys. Rev. Lett. 111, 022501 (2013) 022501, arXiv:1305.2234.
[MINERvA:2013bcy]

3 - Phenomenology

[3-1]
An Error Analysis Toolkit for Binned Counting Experiments, B. Messerly et al. (MINERvA), EPJ Web Conf. 251 (2021) 03046, arXiv:2103.08677.
[MINERvA:2021ddh]
[3-2]
Neutrino Flux Predictions for the NuMI Beam, L. Aliaga et al. (MINERvA), Phys. Rev. D94 (2016) 092005, arXiv:1607.00704.
[MINERvA:2016iqn]
[3-3]
Neutrino Scattering Uncertainties and their Role in Long Baseline Oscillation Experiments, D.A. Harris et al. (MINERvA), arXiv:hep-ex/0410005, 2004.
[MINERvA:2004whn]

4 - Detector

[4-1]
Vertex finding in neutrino-nucleus interaction: A Model Architecture Comparison, F. Akbar et al. (MINERvA), JINST 17 (2022) T08013, arXiv:2201.02523.
[MINERvA:2022ujp]
[4-2]
Neutral pion reconstruction using machine learning in the MINERvA experiment at $\langle E_\nu \rangle \sim 6$ GeV, A. Ghosh et al., JINST 16 (2021) P07060, arXiv:2103.06992.
[MINERvA:2021hvz]
[4-3]
Reducing model bias in a deep learning classifier using domain adversarial neural networks in the MINERvA experiment, G. N. Perdue et al., JINST 13 (2018) P11020, arXiv:1808.08332.
[MINERvA:2018smv]
[4-4]
MINERvA neutrino detector response measured with test beam data, L. Aliaga et al. (MINERvA), Nucl.Instrum.Meth. A789 (2015) 28-42, arXiv:1501.06431.
[MINERvA:2015yej]
[4-5]
Design, Calibration, and Performance of the MINERvA Detector, L. Aliaga et al. (MINERvA), Nucl.Instrum.Meth. A743 (2014) 130, arXiv:1305.5199.
[MINERvA:2013zvz]
[4-6]
The MINER$nu$A Data Acquisition System and Infrastructure, G. N. Perdue et al. (MINERvA), Nucl.Instrum.Meth. A694 (2012) 179-192, arXiv:1209.1120.
[MINERvA:2012bfi]
[4-7]
Arachne - A web-based event viewer for MINERvA, N. Tagg et al. (MINERvA), Nucl. Instrum. Meth. 676 (2012) 44-49, arXiv:1111.5315.
[MINERvA:2011bff]

5 - Talks

[5-1]
Data Preservation at MINERvA, R. Fine, B. Messerly, K.S. McFarland (MINERvA), arXiv:2009.04548, 2020. Snowmass 2021 Letter of Interest.
[Fine:2020snd]
[5-2]
Recent Results from MINERvA, L. Fields (MINERvA), J.Phys.Conf.Ser. 888 (2017) 012015, arXiv:1612.07348. Neutrino 2016, XXVII International Conference on Neutrino Physics and Astrophysics, London, UK, 4 - 9 July 2016.
[Fields:2016yik]
[5-3]
Probing nuclear effects using single-transverse kinematic imbalance with MINERvA, X. -G. Lu, M. Betancourt (MINERvA), J.Phys.Conf.Ser. 888 (2017) 012120, arXiv:1608.04655. Neutrino 2016.
[Lu:2016mjf]
[5-4]
Electron Neutrino Charged-Current Quasielastic Scattering in the MINERvA Experiment, J. Wolcott (MINERvA), JPS Conf.Proc. 12 (2016) 010015, arXiv:1512.09312. 10th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt15).
[Wolcott:2015cgk]
[5-5]
Electron neutrino charged-current quasielastic scattering in the MINERvA experiment, Jeremy Wolcott (MINERvA), arXiv:1510.08342, 2015. DPF 2015 Meeting of the American Physical Society Division of Particles and Fields, Ann Arbor, Michigan, August 4-8, 2015.
[Wolcott:2015gva]
[5-6]
Measurement of electron neutrino CCQE-like cross-section in MINERvA, Jeremy Wolcott (MINERvA), PoS NUFACT2014 (2015) 058, arXiv:1501.05214. 16th International Workshop on Neutrino Factories and Future Neutrino Beam Facilities, 25-30 August, 2014, University of Glasgow, United Kingdom.
[Wolcott:2015lya]
[5-7]
Implications of recent MINER$\nu$A results for neutrino energy reconstruction, Jeremy Wolcott (MINERvA), PoS NUFACT2014 (2015) 105, arXiv:1501.05210. 16th International Workshop on Neutrino Factories and Future Neutrino Beam Facilities, 25-30 August, 2014, University of Glasgow, United Kingdom.
[Wolcott:2015kya]
[5-8]
Nuclear Target Cross Section Ratios at MINERvA, Brian G. Tice (MINERvA), arXiv:1405.3960, 2014. 49th Rencontres de Moriond on QCD and High Energy Interactions, La Thuile, Italy, March 2014.
[Tice:2014foa]
[5-9]
Results from MINERvA, M. Kordosky, 2012. FNAL, 1 June 2012, Fermilab, Chicago, US. http://theory.fnal.gov/jetp/talks/minerva_results.pdf.
[Minerva-FNAL-120601]
[5-10]
MINERvA Status and Event Reconstruction, Gabriel N. Perdue (MINERvA), J. Phys. Conf. Ser. 408 (2013) 012037, arXiv:1110.3727. NUFACT 11, XIIIth International Workshop on Neutrino Factories, Super beams and Beta beams, 1-6 August 2011, CERN and University of Geneva.
[Perdue:2011up]
[5-11]
MINERvA Detector: Description and Performance, Bari Osmanov (MINERvA), arXiv:1109.2855, 2011.
[Osmanov:2011ig]
[5-12]
Measuring the NuMI Beam Flux for MINERvA, Melissa T. Jerkins (MINERvA), AIP Conf. Proc. 1405 (2011) 362-367, arXiv:1108.4861. NuInt 2011.
[Jerkins:2011ww]
[5-13]
Quasi-Elastic Scattering in MINERvA, Kevin S. McFarland (MINERvA), AIP Conf. Proc. 1405 (2011) 95-100, arXiv:1108.0702. NuInt11, The Seventh International Workshop on Neutrino-Nucleus Interactions in the Few GeV Region, Dehradun, India, March 2011.
[McFarland:2011jd]
[5-14]
Status Update for the MINER$\nu$A Experiment, Gabriel Perdue (MINERvA), arXiv:1105.1698, 2011. Moriond Electroweak 2011.
[Perdue:2011rg]
[5-15]
The MINERvA Neutrino Interaction Experiment, Richard Gran, AIP Conf. Proc. 981 (2008) 256-258, arXiv:0711.3029. 9th International Workshop On Neutrino Factories, Superbeams and Betabeams (NuFact07).
[Gran:2007kr]
[5-16]
The Design and Performance of the MINERvA Detector, H. Budd, Int. J. Mod. Phys. A20 (2005) 3073, arXiv:hep-ex/0503024. DPF04.
[Budd:2005ga]

6 - Proposal

[6-1]
Proposal to Perform a High-Statistics Neutrino Scattering Experiment Using a Fine-grained Detector, D. Drakoulakos et al. (Minerva), arXiv:hep-ex/0405002, 2004.
[MINERvA:2004gta]

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Authors:
Stefano Gariazzo / gariazzo@to.infn.it
Carlo Giunti / giunti@to.infn.it
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Last Update: Fri 29 Mar 2024, 11:16:05 CET