论文信息 - Volume I. Introduction to DUNE - 字舞流文

Volume I. Introduction to DUNE

The preponderance of matter over antimatter in the early universe, the dynamics of the supernovae that produced the heavy elements necessary for life, and whether protons eventually decay—these mysteries at the forefront of particle physics and astrophysics are key to understanding the early evolution of our universe, its current state, and its eventual fate. The Deep Underground Neutrino Experiment (DUNE) is an international world-class experiment dedicated to addressing these questions as it searches for leptonic charge-parity symmetry violation, stands ready to capture supernova neutrino bursts, and seeks to observe nucleon decay as a signature of a grand unified theory underlying the standard model. The DUNE far detector technical design report (TDR) describes the DUNE physics program and the technical designs of the single- and dual-phase DUNE liquid argon TPC far detector modules. This TDR is intended to justify the technical choices for the far detector that flow down from the high-level physics goals through requirements at all levels of the Project. Volume I contains an executive summary that introduces the DUNE science program, the far detector and the strategy for its modular designs, and the organization and management of the Project. The remainder of Volume I provides more detail on the science program that drives the choice of detector technologies and on the technologies themselves. It also introduces the designs for the DUNE near detector and the DUNE computing model, for which DUNE is planning design reports. Volume II of this TDR describes DUNE's physics program in detail. Volume III describes the technical coordination required for the far detector design, construction, installation, and integration, and its organizational structure. Volume IV describes the single-phase far detector technology. A planned Volume V will describe the dual-phase technology.

V. P. Luzio | J. I. Crespo-Anadón | P. Baldi | R. Nichol | A. Aurisano | F. Azfar | G. Bellettini | C. Bromberg | H. Budd | M. Campanelli | K. Cho | J. Freeman | I. Furic | M. Gold | J. Han | E. James | T. Junk | D. Kim | C. Lin | T. Miao | N. Moggi | J. Nachtman | V. Papadimitriou | A. Penzo | J. Rademacker | P. Schlabach | M. Leyton | V. Radeka | M. Decowski | S. Manly | L. Hertel | A. Falcone | A. Dell'Acqua | K. Mason | N. Samios | G. Deptuch | J. Hoff | K. Herner | J. Conrad | R. Cross | B. Jones | K. Mahn | F. Cavalier | K. Manolopoulos | M. Lokajicek | K. Lande | M. Sorel | T. Coan | C. Grace | B. Abi | D. Adams | O. Beltramello | N. Benekos | S. Bordoni | J. Bracinik | A. Brandt | J. Bremer | G. Brooijmans | P. Calafiura | K. De | P. Jong | A. Ereditato | F. Filthaut | L. S. Fajardo | B. Guo | H. Hadavand | S. Hillier | P. Keener | V. Kus | G. Miotto | N. Martinez | A. Maio | J. Maneira | A. Mann | D. Moreno | M. Nessi | S. Palestini | J. Pater | D. Sankey | V. Savinov | S. Vallecorsa | R. Berg | D. Whittington | V. Zutshi | K. Nishimura | G. Varner | J. Beacom | D. Waters | J. Singh | P. Bouř | A. Karcher | A. Lambert | P. Baesso | F. Barão | M. Bonesini | A. Grant | P. Ratoff | A. Cervelli | R. Gandrajula | S. Sacerdoti | F. Marinho | N. Saoulidou | A. Montanari | R. Potenza | E. Calvo | A. Roeck | A. Thea | D. Cussans | D. Newbold | C. Brew | K. Harder | C. Shepherd-Themistocleous | G. Iles | A. Tapper | K. Tsang | S. Paramesvaran | G. Cerati | J. Hugon | B. Bi̇lki̇ | Y. Onel | T. Bolton | L. Cremaldi | D. Sanders | D. Summers | M. Eads | M. Mooney | H. Mendez | G. Petrillo | W. Flanagan | S. Gollapinni | J. Asaadi | L. Bagby | L. Bellantoni | G. Blazey | A. Bross | P. Ding | A. Dyshkant | D. Edmunds | S. Fuess | R. Illingworth | W. Ketchum | M. Kirby | P. Lebrun | S. Lockwitz | S. Bolognesi | Z. Tsamalaidze | A. Chatterjee | J. Anderson | M. Mulhearn | G. Savage | H. Schellman | K. Soustruznik | Y. Tsai | M. Verzocchi | A. White | J. Zennamo | M. Messier | J. Russell | R. Wilson | T. Yang | M. Wascko | H. Steiner | R. Poling | D. Christian | J. Zálešák | T. Lux | K. Francis | J. Nelson | S. Chattopadhyay | A. Mazzacane | T. Usher | S. Magill | C. Densham | S. Mishra | S. Striganov | Y. Karyotakis | N. Mokhov | Z. Parsa | E. Blucher | S. Patton | S. Emery | C. Booth | D. Duchesneau | C. Palomares | M. Bishai | M. Convery | S. Bertolucci | K. Biery | G. Christodoulou | M. Pallavicini | P. Clarke | M. Delgado | R. Staley | D. Shooltz | O. Mena | J. Stock | J. Musser | R. Flight | D. Last | M. Chen | D. Franco | A. Habig | A. Higuera | J. Migenda | A. Renshaw | A. Roeth | K. Scholberg | M. Strait | J. Vasel | B. Viren | T. Kutter | W. Wu | V. Aushev | B. Bhuyan | O. Gogota | I. Kadenko | R. Kumar | Y. Onishchuk | I. Seong | S. Mufson | R. Nandakumar | T. Kosc | S. Davini | D. Montanari | G. Testera | W. Griffith | A. Zani | K. Long | D. Gastler | M. Delgado | E. Church | R. Guenette | G. Carini | J. Fried | A. Khvedelidze | S. Santana | S. Kohn | G. Riccobene | E. Hazen | J. Mueller | A. Delbart | N. Buchanan | C. Johnson | G. Pawloski | M. Wetstein | M. Betancourt | J. Chaves | H. Motta | J. Félix | L. Fields | A. Gago | D. Harris | M. Kordosky | C. Marshall | K. Mcfarland | A. Olivier | D. Ruterbories | C. J. S. Salinas | E. Valencia | J. Wolcott | A. Heavey | A. Marchionni | G. Barr | W. Marciano | S. Centro | C. Rubbia | D. Gibin | S. Domizio | C. Tull | J. Freestone | M. Groh | H. Gallagher | A. Gouvea | R. D. Water | G. Zeller | D. Dwyer | M. Goodman | L. Noto | A. Ariga | K. Kothekar | G. Adamov | R. Sharma | M. Adinolfi | P. Carniti | C. Gotti | K. Hennessy | A. McNab | F. Muheim | J. Coelho | S. Menary | S. Prince | O. Dvornikov | C. Girerd | M. Weber | B. Radics | C. Sutera | R. Mazza | S. Ventura | G. Davies | A. Hahn | D. Wenman | P. Debbins | P. Dunne | H. Wei | O. Palamara | S. Rescia | R. Gomes | V. Guarino | M. Shaevitz | V. Paolone | A. Fernandez | B. Yu | S. Timm | S. Peeters | M. Chalifour | J. Dawson | P. Sala | A. Marino | K. Heeger | K. Rielage | J. Klein | J. Huang | D. Mladenov | A. Muir | R. Petti | M. Potekhin | A. Tonazzo | O. Miranda | J. Valle | A. Bitadze | F. Gonnella | J. Yu | E. Zimmerman | R. Johnson | S. Boyd | D. Naples | M. Tzanov | M. Newcomer | L. Stanco | D. Gnani | A. Machado | A. Papanestis | L. Camilleri | M. Bongrand | Z. Djurcic | I. Gil-Botella | J. Hartnell | G. Horton-Smith | E. Kemp | C. Lane | J. Losecco | C. Mariani | J. Maricic | R. Milincic | P. Novella | J. Reichenbacher | E. Smith | J. Spitz | R. Svoboda | K. Terao | M. Toups | M. Worcester | F. Wilson | W. Trzaska | Y. Cui | C. Petta | G. Valdiviesso | J. Réal | K. Loo | L. M. Zétina | S. Balasubramanian | A. Deisting | C. Zhang | W. Louis | M. Zhao | F. Stocker | S. Brice | C. Andreopoulos | D. Autiero | G. Barker | F. Bay | H. Berns | F. Blaszczyk | T. Durkin | V. Galymov | A. Gendotti | P. Guzowski | T. Hasegawa | A. Izmaylov | C. Jung | E. Kearns | M. Khabibullin | A. Khotjantsev | B. Kirby | I. Kreslo | Y. Kudenko | J. Marteau | E. Mazzucato | C. Mcgrew | W. Metcalf | O. Mineev | B. Morgan | S. Murphy | J. Nowak | D. Payne | J. Raaf | P. Rodrigues | A. Rubbia | M. Smy | H. Sobel | T. Strauss | H. Tanaka | C. Touramanis | M. Vagins | G. Vasseur | T. Wachala | A. Waldron | D. Warner | A. Weber | L. Whitehead | M. Wilking | T. Wongjirad | N. Yershov | M. Zito | Y. Chen | M. Diwan | W. Gu | X. Ji | S. Kettell | S. Lin | B. Littlejohn | J. Liu | K. Luk | V. Pěč | X. Qian | E. Worcester | K. Siyeon | T. Alion | M. Andrews | A. Bashyal | V. Bellini | J. Bian | J. Boissevain | G. Brunetti | C. Castromonte | F. Cavanna | D. Cherdack | C. Chi | S. Childress | A. Cocco | D. Demuth | C. Escobar | C. Farnese | B. Fleming | W. Fox | A. Friedland | R. Gandhi | R. Gran | C. Grant | L. Greenler | A. Guglielmi | M. Guzzo | R. Hatcher | J. Hewes | A. Himmel | P. Holanda | A. Holin | G. Karagiorgi | V. Kudryavtsev | J. Kumar | K. Lang | J. Learned | M. Marshak | J. Marshall | S. Matsuno | C. Mauger | K. Mavrokoridis | E. McCluskey | A. Menegolli | G. Meng | C. Montanari | C. Moura | E. Niner | S. Pakvasa | J. Paley | B. Paulos | Ž. Pavlović | F. Pietropaolo | R. Plunkett | S. Pordes | I. Rakhno | Y. Ramachers | R. Rameika | A. Rappoldi | G. Raselli | B. Rebel | L. Rochester | M. Rossella | A. Scaramelli | D. Schmitz | E. Segreto | T. Shaw | N. Simos | M. Soderberg | W. Sondheim | A. Sousa | N. Spooner | M. Stancari | J. Stewart | L. Suter | B. Szczerbinska | A. Szelc | S. Soldner-Rembold | R. Talaga | S. Tariq | R. Tayloe | C. Thorn | M. Torti | J. Urheim | F. Varanini | K. Vaziri | C. Vignoli | K. Warburton | K. Wood | N. Barros | C. Cattadori | K. Guthikonda | G. Pessina | V. Solovov | A. Blake | L. Corwin | J. Evans | K. Grzelak | L. Mualem | R. Patterson | N. Poonthottathil | M. Sanchez | P. Vahle | R. Zwaska | J. Berger | G. Mandrioli | N. Mauri | L. Pasqualini | L. Patrizii | M. Pozzato | M. Roda | G. Sirri | M. Tenti | F. Terranova | S. Tufanli | S. Berkman | D. Brailsford | L. Cremonesi | S. Dennis | K. Duffy | A. Furmanski | P. Hamilton | M. Kabirnezhad | A. Kaboth | S. Martynenko | A. Mefodiev | D. Sgalaberna | C. Wilkinson | L. Zambelli | S. Antusch | C. Backhouse | B. Bambah | R. Dharmapalan | H. Duyang | A. Giri | J. Grudzinski | F. Jediný | S. Kasetti | H. Meyer | R. Mohanta | M. Muether | A. Norman | D. Pershey | B. Potukuchi | J. Smolík | N. Solomey | J. Trevor | T. Vrba | B. Zamorano | E. Gamberini | E. Goudzovski | N. Lurkin | M. Graham | A. Bitadze | T. Boschi | M. Hostert | K. Kelly | P. Machado | S. Pascoli | S. Prakash | S. Shin | G. Sinev | D. V. Forero | T. Prakash | J. Eisch | A. Schukraft | I. Sarčević | T. Patzak | J. Alba | A. Laundrie | S. Biagi | Y. Pénichot | S. Ravat | F. Krennrich | C. Distefano | M. Karolak | R. Papaleo | P. Sapienza | A. Weinstein | S. Zucchelli | H. Muramatsu | S. Parke | R. Raboanary | F. Andrianala | S. Green | X. Pons | P. Smith | E. Gramellini | C. Barnes | M. Bhattacharjee | K. Negishi | T. Loew | R. Shrock | S. D. Reitzner | L. Simard | M. Tórtola | A. Hourlier | G. Yang | E. Fernandez-Martinez | A. Ioannisian | T. Langford | D. M. Caicedo | K. Moffat | M. Dolinski | J. Pozimski | L. Manenti | I. Lazanu | N. McConkey | T. Hill | M. Dabrowski | J. D. M. Neto | R. Northrop | W. Barkhouse | R. Lehnert | M. Mewes | J. Calcutt | S. Kulagin | T. Le | A. Mislivec | J. Mousseau | P. Green | A. Castillo | E. Pennacchio | E. Raguzin | C. Brizzolari | S. Narita | N. Sahu | A. Ankowski | S. Gardiner | J. Barrow | B. Carlus | R. Acciarri | M. A. Acero | Z. Ahmad | J. Ahmed | S. A. Monsalve | C. Alt | M. Antonova | L. Arnold | M. Arroyave | H. Back | J. Back | R. Bajou | G. Barenboim | J. Monarca | V. Basque | E. Bechetoille | B. Behera | D. Belver | F. B. Neves | P. Bernardini | R. Berner | Y. Bezawada | M. Biassoni | B. B. Siffert | F. Bonini | A. Booth | A. Borkum | N. Bostan | D. Boyden | D. Braga | E. Brianne | D. Caiulo | M. Calin | S. Calvez | A. Caminata | D. Caratelli | I. C. Terrazas | H. Carranza | A. C. Villanueva | C. Chang | E. Chardonnet | H. Chen | A. Chiriacescu | S. Choubey | A. Christensen | E. Conley | P. Cotte | E. Cristaldo | C. Cuesta | L. D. S. Peres | Q. David | R. Almeida | I. Bonis | I. Astiz | D. Delépine | P. D. Lurgio | V. Romeri | J. D. Vries | F. Diaz | L. D. Giulio | R. Diurba | N. Dokania | L. Dominé | D. Douglas | F. Drielsma | L. E. Sanchez | E. Ewart | A. Ezeribe | K. Fahey | Y. Farzan | P. F. Menéndez | F. Ferraro | A. Filkins | R. Fitzpatrick | J. Fowler | J. Franc | A. Gallego-Ros | N. Gallice | T. Gamble | S. Gao | D. Garcia-Gamez | M. García-Peris | G. Ge | B. Gelli | S. Gent | Z. Ghorbani-Moghaddam | K. Gollwitzer | L. G. Bermeo | J. A. Gonzalez-Cuevas | O. Goodwin | S. Goswami | E. Granados | D. Gratieri | M. Greenwood | J. Greer | R. Gutiérrez | S. Gwon | A. Hackenburg | R. Haenni | J. Haigh | J. Haiston | T. Hamernik | S. Henry | M. H. Morquecho | A. Hesam | C. Hohl | E. Hoppe | B. Howard | R. Howell | A. Iliescu | R. Itay | B. Jargowsky | C. Jesús-Valls | L. Jiang | A. Jipa | A. Joglekar | S. Jones | Y. Jwa | F. Kamiya | S. Kasai | L. Kashur | N. Kazaryan | B. King | K. Koehler | L. Koerner | P. Koller | U. Kose | V. Kostelecký | C. Kuruppu | P. Lasorak | C. Lastoria | A. Lawrence | R. LaZur | M. Oliveira | M. Leitner | L. Li | S. Li | T. Li | H. Liao | A. Lister | I. Lomidze | D. Lorca | T. Lord | X. Luo | D. MacFarland | C. Macias | J. Macier | A. Maddalena | P. Madigan | J. Maloney | M. Plata | D. Marfatia | J. Martín-Albo | A. Mastbaum | M. Masud | J. Matthews | P. Mehta | P. Melas | M. Mellinato | G. Michna | T. Miedema | J. Mills | C. Milne | S. Miryala | C. Mishra | I. Mocioiu | T. Mohayai | J. Molina | L. Bueno | J. Moon | A. Moor | C. Morris | C. Mossey | E. Motuk | W. Mu | S. Nagu | M. Nalbandyan | D. Navas-Nicolás | N. Nayak | M. Nebot-Guinot | L. Necib | J. Nesbit | D. Newhart | M. Oberling | A. Campo | J. Ott | L. Pagani | E. Pantic | M. Pârvu | J. Pasternak | C. Patrick | A. Paudel | L. Paulucci | O. Peres | J. Perry | F. Piastra | L. Pickering | J. Pillow | D. Pugnère | K. Qi | A. Rafique | M. Rai | M. Rajaoalisoa | H. Rakotondramanana | L. Rakotondravohitra | B. Ramson | H. Razafinime | D. Redondo | M. Reggiani-Guzzo | T. Řehák | F. Resnati | A. Reynolds | L. Rice | Y. Rigaut | D. Rivera | M. Alonso | J. Rondon | H. Rogers | S. Rosauro-Alcaraz | J. Rout | S. Roy | B. Russell | R. Saakyan | T. Safford | M. Santos-Maldonado | C. Sarasty | A. Scarff | A. Scarpelli | T. Schaffer | J. Sensenig | F. Sergiampietri | S. Shafaq | M. Shamma | H. Sharma | J. Sinclair | R. Sipos | F. Sippach | A. Sitraka | D. Smargianaki | A. Smith | P. Snopok | M. Nunes | J. Soto-Oton | F. Spagliardi | M. Spanu | K. Spurgeon | B. Stillwell | T. Stokes | A. Stuart | A. Surdo | V. Susič | B. T. Oregui | E. Tatar | A. Teklu | C. Ternes | J. Thompson | F. Tortorici | D. Totani | N. Tsverava | E. Tyley | M. Uchida | Z. Vallari | D. Vargas | A. Verdugo | S. Vergani | M. Vermeulen | H. V. Souza | C. Vilela | M. Wallbank | H. Wang | J. Wang | A. Watson | P. Weatherly | M. While | Z. Williams | L. Wood | C. Wret | Y. Xiao | K. Yonehara | T. Young | L. Zazueta | K. Zeug | E. Zhivun | G. Zhu | J. Zuklin | S. Jim'enez | J. Anthony | Y. Li, | J. Diaz | W. Miller | L. M. Santos | S. Andringa | J. Brooke | A. Sergi | Y. Wang | H. R. Sharma | C. A. Ternes | Z. Pavlovic | K. Hennessy | F. Muheim | R. Nandakumar | T. Hasegawa | J. Brooke | P. Calafiura | J. Conrad | R. M. Almeida | J. Díaz | B. Bilki | M. Zhao | K. McFarland | L. D. Peres | L. Giulio | M. Sánchez | J. Han | D. Delepine | R. G. Water | T. Rehak | Y. Li | M. Parvu | J. LoSecco | P. Smith | S. Lin | P. Smith | J. Evans | J. Anderson | J. Klein | C. Marshall | A. O. Campo | C. Zhang | J. A. González-Cuevas | R. Wilson

[1] R. Harnik,et al. Exploring ν signals in dark matter detectors , 2012, 1202.6073.

[2] A. Bodek,et al. GENIE Production Release 2.10.0 , 2015, 1512.06882.

[3] R. Gran,et al. GENIE implementation of IFIC Valencia model for QE-like 2p2h neutrino-nucleus cross section , 2016, 1601.02038.

[4] A. Aurisano,et al. Study of quasielastic scattering using charged-current νμ -iron interactions in the MINOS near detector , 2014, 1410.8613.

[5] A. Bodek,et al. Effective spectral function for quasielastic scattering on nuclei , 2014, 1405.0583.

[6] A. Bodek,et al. Single neutral pion production by charged-current $\bar{\nu}_\mu$ interactions on hydrocarbon at $\langle E_\nu \rangle = $3.6 GeV , 2015, 1503.02107.

[7] E. L. Snider,et al. LArSoft: toolkit for simulation, reconstruction and analysis of liquid argon TPC neutrino detectors , 2017 .

[8] Nuruzzaman,et al. Measurement of neutrino flux from neutrino-electron elastic scattering , 2015, 1512.07699.

[9] E. Oset,et al. Inclusive quasi-elastic neutrino reactions , 2005, nucl-th/0503023.

[10] C. Bromberg,et al. The ArgoNeuT Detector in the NuMI Low-Energy beam line at Fermilab , 2012, 1205.6747.

[11] Los Alamos National Laboratory,et al. The Long-Baseline Neutrino Experiment: Exploring Fundamental Symmetries of the Universe , 2013, 1307.7335.

[12] C. Lippmann. Performance of the ALICE Time Projection Chamber , 2012 .

[13] A. Soha,et al. Baryon Number Violation , 2013, 1311.5285.

[14] Nuruzzaman,et al. Cross sections for neutrino and antineutrino induced pion production on hydrocarbon in the few-GeV region using MINERvA , 2016, 1606.07127.

[15] India.,et al. Optimised sensitivity to leptonic CP violation from spectral information: the LBNO case at 2300 km baseline , 2014, 1412.0593.

[16] A. Delgado. Pion Production at MINERvA , 2017 .

[17] T. Totani,et al. SUPERNOVA NEUTRINO LIGHT CURVES AND SPECTRA FOR VARIOUS PROGENITOR STARS: FROM CORE COLLAPSE TO PROTO-NEUTRON STAR COOLING , 2012, 1210.6841.

[18] R. Hatcher,et al. Long-Baseline Neutrino Facility (LBNF) and Deep Underground Neutrino Experiment (DUNE) Conceptual Design Report Volume 1: The LBNF and DUNE Projects , 2016 .

[19] G. Geronimo,et al. ArgonCube: a novel, fully-modular approach for the realization of large-mass liquid argon TPC neutrino detectors , 2015 .

[20] S. M. Etesami,et al. Search for an L-mu - L-tau gauge boson using Z -> 4 mu events in proton-proton collisions at root s=13 TeV , 2019 .

[21] A. Ereditato,et al. Design and operation of ARGONTUBE: a 5 m long drift liquid argon TPC , 2013, 1304.6961.

[22] R. Hatcher,et al. The NuMI Neutrino Beam , 2015, 1507.06690.

[23] Hirata,et al. Observation of a neutrino burst from the supernova SN1987A. , 1987, Physical review letters.

[24] J. Nikkel,et al. Index of refraction, Rayleigh scattering length, and Sellmeier coefficients in solid and liquid argon and xenon , 2015, 1502.04213.

[25] H. K. Ticho,et al. Spatial Resolution of the PEP-4 Time Projection Chamber , 1983, IEEE Transactions on Nuclear Science.

[26] Nuruzzaman,et al. Cross sections for νμ and ν̄μ induced pion production on hydrocarbon in the few-GeV region using MINERvA , 2016 .

[27] D. Schramm,et al. New physics from supernova 1987A , 1990 .

[28] A. Bodek,et al. Further Studies of Fermi Motion Effects in Lepton Scattering from Nuclear Targets , 1981 .

[29] K. McFarland,et al. Differences in Quasi-Elastic Cross-Sections of Muon and Electron Neutrinos , 2012, 1206.6745.

[30] Andrea Polini,et al. ALICE: Technical design report of the time projection chamber , 2000 .

[31] S. Horiuchi,et al. What can be learned from a future supernova neutrino detection , 2017, 1709.01515.

[32] F. Simon,et al. T3B — an experiment to measure the time structure of hadronic showers , 2013, 1309.6143.

[33] M. Auger,et al. ArCLight - a Compact Dielectric Large-Area Photon Detector , 2017, 1711.11409.

[34] Ayuki Kamada,et al. Coherent propagation of PeV neutrinos and the dip in the neutrino spectrum at IceCube , 2015, 1504.00711.

[35] A. Ereditato,et al. First measurements with ARGONTUBE, a 5m long drift Liquid Argon TPC , 2013 .

[36] A. Soha,et al. Working Group Report: Baryon Number Violation , 2013 .

[37] A. Dell'Acqua,et al. Geant4 - A simulation toolkit , 2003 .

[38] Marco Cattaneo,et al. Update of the Computing Models of the WLCG and the LHC Experiments , 2014 .

[39] E. Lisi,et al. Status and prospects of global analyses of neutrino mass-mixing parameters , 2017 .

[40] Jose Benito Gonzalez Lopez,et al. A Roadmap for HEP Software and Computing R&D for the 2020s , 2017, Computing and Software for Big Science.

[41] Carlos Maltzahn,et al. HEP Software Foundation Community White Paper Working Group -- Data Organization, Management and Access (DOMA) , 2018, 1812.00761.

[42] A. Blondel,et al. A fully-active fine-grained detector with three readout views , 2017, 1707.01785.

[43] J. Nieves,et al. Inclusive quasielastic charged-current neutrino-nucleus reactions , 2004, nucl-th/0408005.

[44] M.Tada,et al. T2K ND280 Upgrade - Technical Design Report , 2019, 1901.03750.

[45] Nuruzzaman,et al. Neutron measurements from antineutrino hydrocarbon reactions , 2019, Physical Review D.

[46] Park,et al. Observation of a neutrino burst in coincidence with supernova 1987A in the Large Magellanic Cloud. , 1987, Physical review letters.

[47] M. Martini,et al. Energy reconstruction effects in neutrino oscillation experiments and implications for the analysis , 2012, 1211.1523.

[48] M. Hartz,et al. Characterization of nuclear effects in muon-neutrino scattering on hydrocarbon with a measurement of final-state kinematics and correlations in charged-current pionless interactions at T2K , 2018, Physical Review D.

[49] A. Bodek,et al. Single neutral pion production by charged-current ν̄μ interactions on hydrocarbon at 〈Eν〉=3.6 GeV , 2015 .

[50] D. Gnani,et al. LArPix: demonstration of low-power 3D pixelated charge readout for liquid argon time projection chambers , 2018, Journal of Instrumentation.

[51] K. McFarland,et al. Neutrino-electron elastic scattering for flux determination at the DUNE oscillation experiment , 2019, Physical Review D.

[52] A. Friedland,et al. Understanding the energy resolution of liquid argon neutrino detectors , 2018, Physical Review D.

[53] Andrea Ianni,et al. Precision measurement of the (7)Be solar neutrino interaction rate in Borexino. , 2011, Physical review letters.

[54] D. F. Lodato,et al. Performance of the ALICE experiment at the CERN LHC , 2014 .

[55] R.Gill,et al. Long-Baseline Neutrino Facility (LBNF) and Deep Underground Neutrino Experiment (DUNE) Conceptual Design Report Volume 1: The LBNF and DUNE Projects , 2015 .

[56] C. D. Moore,et al. The Pandora multi-algorithm approach to automated pattern recognition of cosmic-ray muon and neutrino events in the MicroBooNE detector , 2017, The European Physical Journal C.

[57] A. Ereditato,et al. Performance of cryogenic charge readout electronics with the ARGONTUBE LAr TPC , 2014, 1408.7046.

[58] R. Gran. Model Uncertainties for Valencia RPA Effect for MINERvA , 2017, 1705.02932.

[59] F. Simon,et al. A highly granular calorimeter concept for long baseline near detectors , 2018, Journal of Physics: Conference Series.

[60] Torsten Bringmann,et al. Is dark matter with long-range interactions a solution to all small-scale problems of Λ cold dark matter cosmology? , 2012, Physical review letters.

[61] Nuruzzaman,et al. Measurement of quasielastic-like neutrino scattering at ⟨Eν⟩∼3.5 GeV on a hydrocarbon target , 2018, Physical Review D.

[62] J. Layter. Results from PEP-4 TPC , 1985 .

[63] B. Baller,et al. LArIAT: Liquid Argon In A Testbeam , 2014, 1406.5560.

[64] D. P. Méndez,et al. The Single-Phase ProtoDUNE Technical Design Report , 2017, 1706.07081.

[65] C. Cheshkov,et al. Fast Hough-transform track reconstruction for the ALICE TPC , 2006 .

[66] R. Hatcher,et al. First measurement of muon-neutrino disappearance in NOvA , 2016, 1601.05037.

[67] H. Ara'ujo,et al. Liquid noble gas detectors for low energy particle physics , 2012, 1207.2292.

[68] R.Gill,et al. Long-Baseline Neutrino Facility (LBNF) and Deep Underground Neutrino Experiment (DUNE) Conceptual Design Report Volume 2: The Physics Program for DUNE at LBNF , 2015, 1512.06148.

[69] R. Hatcher,et al. The GENIE * Neutrino Monte Carlo Generator , 2009, 0905.2517.

[70] Tadashi Maeno,et al. PanDA for ATLAS distributed computing in the next decade , 2017 .

[71] J. Valle,et al. Parameter degeneracy in flavor-dependent reconstruction of supernova neutrino fluxes , 2008, 0802.1489.

[72] N. Dhanaraj,et al. Mu2e Technical Design Report , 2015, 1501.05241.

[73] C. D. Moore,et al. Determination of muon momentum in the MicroBooNE LArTPC using an improved model of multiple Coulomb scattering , 2017, 1703.06187.

[74] N. S. Barnett,et al. Private communication , 1969 .

[75] Hiroshi Nunokawa,et al. CP violation and neutrino oscillations , 2007, 0710.0554.

[76] Rein,et al. Neutrino reactions in the low-y region. , 1988, Physical Review D, Particles and fields.

[77] D. H. White,et al. Measurement of the neutrino neutral-current elastic differential cross section on mineral oil at Eν∼1GeV , 2010 .

[78] Smith,et al. Neutrino tridents and W-Z interference. , 1991, Physical review letters.

[79] S. R. Seidel,et al. Observation of a neutrino burst from supernova SN 1987A. , 1987 .

[80] S. Kim,et al. Search for proton decay via p→νK + using 260 kiloton.year data of Super-Kamiokande , 2014, 1408.1195.

[81] Nuruzzaman,et al. Constraint of the MINERν A medium energy neutrino flux using neutrino-electron elastic scattering , 2019, Physical Review D.

[82] Hayes,et al. Review of Particle Physics. , 1996, Physical review. D, Particles and fields.

[83] ALICE Collaboration,et al. Performance of the ALICE Experiment at the CERN LHC , 2014, 1402.4476.

[84] Manoj Sharma,et al. ALICE: Physics Performance Report, Volume II , 2006 .

[85] L. Papp,et al. First Simultaneous Precision Spectroscopy of pp , 7 Be, and pep Solar Neutrinos with Borexino Phase-II , 2017 .

[86] D. P. Méndez,et al. First measurement of neutrino oscillation parameters using neutrinos and antineutrinos by NOvA. , 2019, Physical review letters.

[87] Alan D. Martin,et al. Review of Particle Physics , 2014 .

[88] S. Dytman. Neutrino Event Generators , 2007 .

[89] M. Kowalski,et al. The ALICE TPC, a large 3-dimensional tracking device with fast readout for ultra-high multiplicity events , 2010, 1001.1950.

[90] Martin A. Garrett. The LIGO Scientific Collaboration , 2010 .

[91] L. Oberauer,et al. Table-top setup for investigating the scintillation properties of liquid argon , 2011, 1511.07720.

[92] R. Gran,et al. Neutrino-nucleus quasi-elastic and 2p2h interactions up to 10 GeV , 2013, 1307.8105.

[93] D. Leith,et al. Search for a muonic dark force at BaBar , 2016 .

[94] Farid Ould-Saada,et al. Rucio: Scientific Data Management , 2019, Computing and Software for Big Science.

[95] K. Scholberg,et al. Supernova neutrino detection , 2000, 1205.6003.

[96] W. Altmannshofer,et al. Neutrino trident production: a powerful probe of new physics with neutrino beams. , 2014, Physical review letters.

[97] N. Shumeiko,et al. Construction and Commissioning of the CALICE Analog Hadron Calorimeter Prototype , 2010, 1003.2662.

[98] F. Vissani. Comparative analysis of SN1987A antineutrino fluence , 2014, 1409.4710.

[99] E. al.,et al. Measurement of the quasielastic axial vector mass in neutrino interactions on oxygen , 2006, hep-ex/0603034.

[100] Michele Maltoni,et al. Global analysis of three-flavour neutrino oscillations: synergies and tensions in the determination of θ23, δCP, and the mass ordering , 2018, Journal of High Energy Physics.

[101] L. Hüdepohl,et al. Neutrinos from the Formation, Cooling, and Black Hole Collapse of Neutron Stars , 2014 .

[102] A. Falabella. LHCb distributed computing in Run II and its evolution towards Run III , 2017 .

[103] for the NA49 collaboration,et al. Erratum to: Measurements of $$\pi ^-$$ production in $$^7\hbox {Be}+{}^9\hbox {Be}$$ collisions at beam momenta from 19A to 150$$A\,\text{ Ge } \text{ V }/c$$ in the NA61/SHINE experiment at the CERN SPS , 2009, The European Physical Journal C.

[104] R. Smith,et al. Neutrino reactions on nuclear targets , 1972 .

[105] Shun Zhou,et al. Comment on "Is dark matter with long-range interactions a solution to all small-scale problems of Λ cold dark matter cosmology?". , 2013, Physical Review Letters.

[106] I. Bird. Evolution of Scientific Computing in the next decade: HEP and beyond , 2018 .

[107] M. Hartz,et al. Search for CP Violation in Neutrino and Antineutrino Oscillations by the T2K Experiment with 2.2×10^{21} Protons on Target. , 2018, Physical review letters.

[108] C. Rubbia. The Liquid Argon Time Projection Chamber: A New Concept for Neutrino Detectors , 1977 .

[109] I. Sauers,et al. Electrical Insulation Characteristics of Glass Fiber Reinforced Resins , 2009, IEEE Transactions on Applied Superconductivity.

[110] J. Valle,et al. Status of neutrino oscillations 2018: 3σ hint for normal mass ordering and improved CP sensitivity , 2017, Physics Letters B.

[111] R. Wilson,et al. Baseline optimization for the measurement of CP violation and mass hierarchy in a long-baseline neutrino oscillation experiment , 2013 .

[112] H. Janka,et al. High-resolution supernova neutrino spectra represented by a simple fit , 2012, 1211.3920.

[113] R. Wilson,et al. Baseline Optimization for the Measurement of CP Violation, Mass Hierarchy, and $\theta_{23}$ Octant in a Long-Baseline Neutrino Oscillation Experiment , 2013, 1311.0212.

[114] A. Bodek,et al. Methods to determine neutrino flux at low energies , 2012, The European Physical Journal C.

[115] A. Blondel,et al. Beam test results of 3D fine-grained scintillator detector prototype for a T2K ND280 neutrino active target , 2018, Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment.

[116] E. Kaptur. The NA61/SHINE Experiment at the CERN SPS , 2014 .

[117] Antonio Ereditato,et al. First Demonstration of a Pixelated Charge Readout for Single-Phase Liquid Argon Time Projection Chambers , 2018, Instruments.

[118] S. Kubota,et al. Dynamical behavior of free electrons in the recombination process in liquid argon, krypton, and xenon , 1979 .

[119] C. Collaboration,et al. Search for an L − L gauge boson using Z → 4μ events in proton-proton collisions at s=13 TeV , 2018, Physics Letters B.

[120] J. Nieves,et al. Inclusive charged-current neutrino-nucleus reactions , 2011, 1102.2777.

[121] D. A. Wickremasinghe,et al. Measurement of the antineutrino neutral-current elastic differential cross section , 2013, 1309.7257.

[122] The Babar Collaboration. Search for a muonic dark force at BABAR , 2016, 1606.03501.

[123] M. Hartz,et al. Constraint on the Matter-Antimatter Symmetry-Violating Phase in Neutrino Oscillations. , 2019, 1910.03887.

[124] A. Hitachi,et al. Effect of ionization density on the time dependence of luminescence from liquid argon and xenon , 1983 .

[125] K. McFarland,et al. Constraining the GENIE model of neutrino-induced single pion production using reanalyzed bubble chamber data , 2016, 1601.01888.

[126] Eric G. Stephan,et al. Belle II Conditions Database , 2018, Journal of Physics: Conference Series.

[127] H. Janka,et al. Supernova Neutrinos: Production, Oscillations and Detection , 2015, 1508.00785.

[128] A. Formica,et al. arXiv : HEP Software Foundation Community White Paper Working Group – Conditions Data , 2019, 1901.05429.

[129] A. D. Ludovico,et al. Simultaneous precision spectroscopy of pp , Be7 , and pep solar neutrinos with Borexino Phase-II , 2017, Physical Review D.

[130] D. A. Wickremasinghe,et al. Design and Construction of the MicroBooNE Detector , 2016, 1612.05824.

[131] S. Amerio,et al. Design, construction and tests of the ICARUS T600 detector , 2004 .

[132] Measurement of νμ charged-current single π0 production on hydrocarbon in the few-GeV region using MINERvA , 2017, 1708.03723.

[133] D. H. Stork,et al. FIRST OPERATION OF THE TPC FACILITY AT PEPLBL, UCLA, UC Riverside , Johns Hopkins , Tokyo, Yale (PEP4 Collaboration) , 1982 .

[134] C. Grupen,et al. Physics of particle detection , 1998, physics/9906063.

[135] Ashutosh Kumar Singh,et al. New constraints on oscillation parameters fromνeappearance andνμdisappearance in the NOvA experiment , 2018, Physical Review D.

[136] A. Marek,et al. Neutrino signal of electron-capture supernovae from core collapse to cooling. , 2009, Physical review letters.