White Paper on New Opportunities at the Next-Generation Neutrino Experiments (Part 1: BSM Neutrino Physics and Dark Matter)

The combination of the high intensity proton beam facilities and massive detectors for precision measurements of neutrino oscillation parameters including the charge-parity violating (CPV) phase will open the door to help make beyond the standard model (BSM) physics reachable even in low energy regi...

Descripción completa

Detalles Bibliográficos
Autores principales: Argüelles, C.A., Aurisano, A.J., Batell, B., Berger, J., Bishai, M., Boschi, T., Byrnes, N., Chatterjee, A., Chodos, A., Coan, T., Cui, Y., De Gouvêa, A., Denton, P.B., De Roeck, A., Flanagan, W., Gandrajula, R.P., Hatzikoutelis, A., Hostert, M., Jones, B., Kayser, B.J., Kelly, K.J., Kim, D., Kopp, J., Kubik, A., Lang, K., Lepetic, I., Machado, P.A.N., Moura, C.A., Olness, F., Park, J.C., Pascoli, S., Prakash, S., Rogers, L., Safa, I., Schneider, A., Scholberg, K., Shin, S., Shoemaker, I.M., Sinev, G., Smithers, B., Sousa, A., Sui, Y., Takhistov, V., Thomas, J., Todd, J., Tsai, Y.D., Tsai, Y.T., Forero, D.V., Yu, J., Zhang, C.
Lenguaje:eng
Publicado: 2019
Materias:
hep-ex
Particle Physics - Experiment
hep-ph
Particle Physics - Phenomenology
Acceso en línea:https://dx.doi.org/10.1088/1361-6633/ab9d12
http://cds.cern.ch/record/2684992
_version_ 1780963362064039936
author Argüelles, C.A.
Aurisano, A.J.
Batell, B.
Berger, J.
Bishai, M.
Boschi, T.
Byrnes, N.
Chatterjee, A.
Chodos, A.
Coan, T.
Cui, Y.
De Gouvêa, A.
Denton, P.B.
De Roeck, A.
Flanagan, W.
Gandrajula, R.P.
Hatzikoutelis, A.
Hostert, M.
Jones, B.
Kayser, B.J.
Kelly, K.J.
Kim, D.
Kopp, J.
Kubik, A.
Lang, K.
Lepetic, I.
Machado, P.A.N.
Moura, C.A.
Olness, F.
Park, J.C.
Pascoli, S.
Prakash, S.
Rogers, L.
Safa, I.
Schneider, A.
Scholberg, K.
Shin, S.
Shoemaker, I.M.
Sinev, G.
Smithers, B.
Sousa, A.
Sui, Y.
Takhistov, V.
Thomas, J.
Todd, J.
Tsai, Y.D.
Tsai, Y.T.
Forero, D.V.
Yu, J.
Zhang, C.
author_facet Argüelles, C.A.
Aurisano, A.J.
Batell, B.
Berger, J.
Bishai, M.
Boschi, T.
Byrnes, N.
Chatterjee, A.
Chodos, A.
Coan, T.
Cui, Y.
De Gouvêa, A.
Denton, P.B.
De Roeck, A.
Flanagan, W.
Gandrajula, R.P.
Hatzikoutelis, A.
Hostert, M.
Jones, B.
Kayser, B.J.
Kelly, K.J.
Kim, D.
Kopp, J.
Kubik, A.
Lang, K.
Lepetic, I.
Machado, P.A.N.
Moura, C.A.
Olness, F.
Park, J.C.
Pascoli, S.
Prakash, S.
Rogers, L.
Safa, I.
Schneider, A.
Scholberg, K.
Shin, S.
Shoemaker, I.M.
Sinev, G.
Smithers, B.
Sousa, A.
Sui, Y.
Takhistov, V.
Thomas, J.
Todd, J.
Tsai, Y.D.
Tsai, Y.T.
Forero, D.V.
Yu, J.
Zhang, C.
author_sort Argüelles, C.A.
collection CERN
description The combination of the high intensity proton beam facilities and massive detectors for precision measurements of neutrino oscillation parameters including the charge-parity violating (CPV) phase will open the door to help make beyond the standard model (BSM) physics reachable even in low energy regimes in the accelerator-based experiments. Large-mass detectors with highly precise tracking and energy measurements, excellent timing resolution, and low energy thresholds will enable the searches for BSM phenomena from cosmogenic origin, as well. Therefore, it is also conceivable that BSM topics in the next-generation neutrino experiments could be the dominant physics topics in the foreseeable future, as the precision of the neutrino oscillation parameter and CPV measurements continue to improve.This paper provides a review of the current landscape of BSM theory in neutrino experiments in two selected areas of the BSM topics—dark matter and neutrino related BSM—and summarizes the current results from existing neutrino experiments to set benchmarks for both theory and experiment. This paper then provides a review of upcoming neutrino experiments throughout the next 10 to 15 year time scale and their capabilities to set the foundation for potential reach in BSM physics in the two aforementioned themes. An important outcome of this paper is to ensure theoretical and simulation tools exist to carry out studies of these new areas of physics, from the first day of the experiments, such as Deep Underground Neutrino Experiment in the U.S. and Hyper-Kamiokande Experiment in Japan.
id cern-2684992
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2019
record_format invenio
spelling cern-26849922023-06-13T03:07:23Zdoi:10.1088/1361-6633/ab9d12http://cds.cern.ch/record/2684992engArgüelles, C.A.Aurisano, A.J.Batell, B.Berger, J.Bishai, M.Boschi, T.Byrnes, N.Chatterjee, A.Chodos, A.Coan, T.Cui, Y.De Gouvêa, A.Denton, P.B.De Roeck, A.Flanagan, W.Gandrajula, R.P.Hatzikoutelis, A.Hostert, M.Jones, B.Kayser, B.J.Kelly, K.J.Kim, D.Kopp, J.Kubik, A.Lang, K.Lepetic, I.Machado, P.A.N.Moura, C.A.Olness, F.Park, J.C.Pascoli, S.Prakash, S.Rogers, L.Safa, I.Schneider, A.Scholberg, K.Shin, S.Shoemaker, I.M.Sinev, G.Smithers, B.Sousa, A.Sui, Y.Takhistov, V.Thomas, J.Todd, J.Tsai, Y.D.Tsai, Y.T.Forero, D.V.Yu, J.Zhang, C.White Paper on New Opportunities at the Next-Generation Neutrino Experiments (Part 1: BSM Neutrino Physics and Dark Matter)hep-exParticle Physics - Experimenthep-phParticle Physics - PhenomenologyThe combination of the high intensity proton beam facilities and massive detectors for precision measurements of neutrino oscillation parameters including the charge-parity violating (CPV) phase will open the door to help make beyond the standard model (BSM) physics reachable even in low energy regimes in the accelerator-based experiments. Large-mass detectors with highly precise tracking and energy measurements, excellent timing resolution, and low energy thresholds will enable the searches for BSM phenomena from cosmogenic origin, as well. Therefore, it is also conceivable that BSM topics in the next-generation neutrino experiments could be the dominant physics topics in the foreseeable future, as the precision of the neutrino oscillation parameter and CPV measurements continue to improve.This paper provides a review of the current landscape of BSM theory in neutrino experiments in two selected areas of the BSM topics—dark matter and neutrino related BSM—and summarizes the current results from existing neutrino experiments to set benchmarks for both theory and experiment. This paper then provides a review of upcoming neutrino experiments throughout the next 10 to 15 year time scale and their capabilities to set the foundation for potential reach in BSM physics in the two aforementioned themes. An important outcome of this paper is to ensure theoretical and simulation tools exist to carry out studies of these new areas of physics, from the first day of the experiments, such as Deep Underground Neutrino Experiment in the U.S. and Hyper-Kamiokande Experiment in Japan.With the advent of a new generation of neutrino experiments which leverage high-intensity neutrino beams for precision measurements, it is timely to explore physics topics beyond the standard neutrino-related physics. Given that the realm of beyond the standard model (BSM) physics has been mostly sought at high-energy regimes at colliders, such as the LHC at CERN, the exploration of BSM physics in neutrino experiments will enable complementary measurements at the energy regimes that balance that of the LHC. This is in concert with new ideas for high-intensity beams for fixed target and beam-dump experiments world-wide, e.g., those at CERN. The combination of the high intensity proton beam facilities and massive detectors for precision neutrino oscillation parameter measurements and for CP violation phase measurements will help make BSM physics reachable even in low energy regimes in accelerator based experiments. Large mass detectors with highly precise tracking and energy measurements, excellent timing resolution, and low energy thresholds will enable searches for BSM phenomena from cosmogenic origin, as well. Therefore, it is conceivable that BSM topics in the next generation neutrino experiments could be the dominant physics topics in the foreseeable future, as the precision of the neutrino oscillation parameter and CPV measurements continues to improve. In this spirit, this white paper provides a review of the current landscape of BSM theory in neutrino experiments in two selected areas of the BSM topics - dark matter and neutrino related BSM - and summarizes the current results from existing neutrino experiments to set benchmarks for both theory and experiment. This paper then provides a review of upcoming neutrino experiments throughout the next 10 - 15 year time scale and their capabilities to set the foundation for potential reach in BSM physics in the two aforementioned themes.arXiv:1907.08311FERMILAB-FN-1079-TReports on Progress in PhysicsVolume 83Number 12oai:cds.cern.ch:26849922019-07-18
spellingShingle hep-ex
Particle Physics - Experiment
hep-ph
Particle Physics - Phenomenology
Argüelles, C.A.
Aurisano, A.J.
Batell, B.
Berger, J.
Bishai, M.
Boschi, T.
Byrnes, N.
Chatterjee, A.
Chodos, A.
Coan, T.
Cui, Y.
De Gouvêa, A.
Denton, P.B.
De Roeck, A.
Flanagan, W.
Gandrajula, R.P.
Hatzikoutelis, A.
Hostert, M.
Jones, B.
Kayser, B.J.
Kelly, K.J.
Kim, D.
Kopp, J.
Kubik, A.
Lang, K.
Lepetic, I.
Machado, P.A.N.
Moura, C.A.
Olness, F.
Park, J.C.
Pascoli, S.
Prakash, S.
Rogers, L.
Safa, I.
Schneider, A.
Scholberg, K.
Shin, S.
Shoemaker, I.M.
Sinev, G.
Smithers, B.
Sousa, A.
Sui, Y.
Takhistov, V.
Thomas, J.
Todd, J.
Tsai, Y.D.
Tsai, Y.T.
Forero, D.V.
Yu, J.
Zhang, C.
White Paper on New Opportunities at the Next-Generation Neutrino Experiments (Part 1: BSM Neutrino Physics and Dark Matter)
title White Paper on New Opportunities at the Next-Generation Neutrino Experiments (Part 1: BSM Neutrino Physics and Dark Matter)
title_full White Paper on New Opportunities at the Next-Generation Neutrino Experiments (Part 1: BSM Neutrino Physics and Dark Matter)
title_fullStr White Paper on New Opportunities at the Next-Generation Neutrino Experiments (Part 1: BSM Neutrino Physics and Dark Matter)
title_full_unstemmed White Paper on New Opportunities at the Next-Generation Neutrino Experiments (Part 1: BSM Neutrino Physics and Dark Matter)
title_short White Paper on New Opportunities at the Next-Generation Neutrino Experiments (Part 1: BSM Neutrino Physics and Dark Matter)
title_sort white paper on new opportunities at the next-generation neutrino experiments (part 1: bsm neutrino physics and dark matter)
topic hep-ex
Particle Physics - Experiment
hep-ph
Particle Physics - Phenomenology
url https://dx.doi.org/10.1088/1361-6633/ab9d12
http://cds.cern.ch/record/2684992
work_keys_str_mv AT arguellesca whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT aurisanoaj whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT batellb whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT bergerj whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT bishaim whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT boschit whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT byrnesn whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT chatterjeea whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT chodosa whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT coant whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT cuiy whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT degouveaa whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT dentonpb whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT deroecka whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT flanaganw whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT gandrajularp whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT hatzikoutelisa whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT hostertm whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT jonesb whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT kayserbj whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT kellykj whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT kimd whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT koppj whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT kubika whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT langk whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT lepetici whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT machadopan whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT mouraca whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT olnessf whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT parkjc whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT pascolis whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT prakashs whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT rogersl whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT safai whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT schneidera whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT scholbergk whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT shins whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT shoemakerim whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT sinevg whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT smithersb whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT sousaa whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT suiy whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT takhistovv whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT thomasj whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT toddj whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT tsaiyd whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT tsaiyt whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT forerodv whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT yuj whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter
AT zhangc whitepaperonnewopportunitiesatthenextgenerationneutrinoexperimentspart1bsmneutrinophysicsanddarkmatter

Ejemplares similares