학술논문
Coherent elastic neutrino-nucleus scattering: Terrestrial and astrophysical applications
Document Type
Working Paper
Author
Abdullah, M.; Abele, H.; Akimov, D.; Angloher, G.; Aristizabal-Sierra, D.; Augier, C.; Balantekin, A. B.; Balogh, L.; Barbeau, P. S.; Baudis, L.; Baxter, A. L.; Beaufort, C.; Beaulieu, G.; Belov, V.; Bento, A.; Berge, L.; Bernardi, I. A.; Billard, J.; Bolozdynya, A.; Bonhomme, A.; Bres, G.; Bret, J-. L.; Broniatowski, A.; Brossard, A.; Buck, C.; Cadeddu, M.; Calvo, M.; Canonica, L.; Cappella, F.; Cardani, L.; Casali, N.; Cazes, A.; Cerulli, R.; Chaize, D.; Chang, C.; Chapellier, M.; Chaplinsky, L.; Chemin, G.; Chen, R.; Colantoni, I.; Colas, J.; Coloma, P.; Corcoran, E. C.; Crawford, S.; Cruciani, A.; Fard, A. Dastgheibi; De Jesus, M.; de Marcillac, P.; De Romeri, V.; del Castello, G.; del GalloRoccagiovine, M.; Delicato, D.; Demarteau, M.; Deng, Y.; Dent, J. B.; Denton, P. B.; Dering, K.; Doblhammer, A.; Dordei, F.; Dorer, S.; Dumoulin, L.; Dunford, D.; Dutta, B.; Erhart, A.; Exshaw, O.; Ferriol, S.; Figueroa-Feliciano, E.; Filippini, J. B.; Flores, L . J.; Formaggio, J. A.; Friedl, M.; Fuard, S.; Gao, F.; Garai, A.; Garces, E. A.; Gascon, J.; Gehrlein, J.; Gerbier, G.; Ghete, V. M.; Giomataris, I.; Giroux, G.; Giuliani, A.; Giunti, C.; Gorel, P.; Goupy, C.; Goupy, J.; Goy, C.; Green, M. P.; Gros, M.; Guerin, C.; Guidi, V.; Guillaudin, O.; Guy, E.; Ha, C.; Hauff, D.; Hakenmuller, J.; Harrington, P. M.; Hedges, S.; Heine, S. T.; Hertel, S.; Heusch, M.; Hoarau, C.; Hoferichter, M.; Hoppe, E. W.; Hong, Z.; Horiuchi, S.; Huber, P.; Ianigro, J. C.; Jachowicz, N.; Jericha, E.; Jin, Y.; Johnston, J. P.; Juillard, A.; Katsioulas, I.; Kazarcev, S.; Kaznacheeva, M.; Kelly, F.; Kelly, K. J.; Kim, D.; Kinast, A.; Klinkenberg, L.; Kluck, H.; Knights, P.; Ko, Y. J.; Kosmas, T. S.; Kwon, L.; Lamblin, J.; Lang, R. F.; Langenkamper, A.; Langrock, S.; Lasserre, T.; Lattaud, H.; Lautridou, P.; Lee, H. S.; Lenardo, B. G.; Lhuillier, D.; Li, M.; Li, S. C.; Li, Y. F.; Li, Z.; Lindner, M.; Liu, J.; Loomba, D.; Lubashevskiy, A.; Machado, P. A. N.; Mancuso, M.; Maneschg, W.; Markoff, D. M.; Marnieros, S.; Martin, R.; Martin, R. D.; Mauri, B.; Mayer, D. W.; Mazzolari, A.; Mazzucato, E.; Menendez, J.; Minet, J.; Miranda, O. G.; Misiak, D.; Mols, J. -P.; Monfardini, A.; Mounier, F.; Muraz, J. F.; Neep, T.; Neilson, R.; Newby, J.; Newstead, J. L.; Neyrial, H.; Ni, K.; Nikolopoulos, K.; Nones, C.; Norcini, D.; Pandey, V.; O'Brien, P.; O'Hare, C. A. J.; Oberauer, L.; Oliver, W.; Olivieri, E.; Onillon, A.; Oriol, C.; Ortmann, T.; Owen, R.; Palladino, K. J.; Papoulias, D. K.; Park, J. C.; Parno, D. S.; Patel, P. K.; Pattavina, L.; Peinado, E.; Perbet, E.; Peters, L.; Petricca, F.; Pinckney, H. D.; Piro, M. -C.; Ponomarev, D.; Poda, D.; Potzel, W.; Probst, F.; Pucci, F.; Rarbi, F.; Rapp, R.; Ray, H.; Real, J. -S.; Reindl, F.; Rich, G. C.; Ricol, J. S.; Rink, T.; Redon, T.; Rogly, R.; Robert, A.; Rothe, J.; Rozov, S.; Rozova, I.; Salagnac, T.; Garcia, E. Sanchez; Garcia, G. Sanchez; Sanders, O.; Sanglard, V.; Santos, D.; Sarkis, Y.; Savu, V.; Savvidis, G.; Savvidis, I.; Schermer, N.; Schieck, J.; Schmidt, B.; Schonert, S.; Scholberg, K.; Schwenk, A.; Schwertner, C.; Scola, L.; Shevchik, Ye.; Shin, S.; Sibille, V.; Shoemaker, I. M.; Snowden-Ifft, D. P.; Soldner, T.; Soum, G.; Spooner, N. J. C.; Stachurska, J.; Stodolsky, L.; Strauss, R.; Strigari, L. E.; Stutz, A.; Suh, B. D.; Suhonen, J.; Tabrizi, Z.; Takhistov, V.; Thompson, A.; Tomei, C.; Tortola, M.; Tripathi, M.; Vagneron, L.; Valle, J. W. F.; Mirbach, K. v.; Van De Ponteseele, W.; Vignati, M.; Vivier, M.; Fernandez, F. Vazquez de Sola; Vezzu, F.; Vidal, M.; Wagner, V.; Walker, J. W.; Ward, R.; Wex, A.; Winslow, L.; Wong, H. T.; Wood, M. H.; Xu, J.; Yang, L.; Yakushev, E.; Zampaolo, M.; Zettlemoyer, J.; Zhang, Y. Y.; Zinatulina, D.
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Abstract
Coherent elastic neutrino-nucleus scattering (CE$\nu$NS) is a process in which neutrinos scatter on a nucleus which acts as a single particle. Though the total cross section is large by neutrino standards, CE$\nu$NS has long proven difficult to detect, since the deposited energy into the nucleus is $\sim$ keV. In 2017, the COHERENT collaboration announced the detection of CE$\nu$NS using a stopped-pion source with CsI detectors, followed up the detection of CE$\nu$NS using an Ar target. The detection of CE$\nu$NS has spawned a flurry of activities in high-energy physics, inspiring new constraints on beyond the Standard Model (BSM) physics, and new experimental methods. The CE$\nu$NS process has important implications for not only high-energy physics, but also astrophysics, nuclear physics, and beyond. This whitepaper discusses the scientific importance of CE$\nu$NS, highlighting how present experiments such as COHERENT are informing theory, and also how future experiments will provide a wealth of information across the aforementioned fields of physics.
Comment: contribution to Snowmasss 2021. Contact authors: P. S. Barbeau, R. Strauss, L. E. Strigari
Comment: contribution to Snowmasss 2021. Contact authors: P. S. Barbeau, R. Strauss, L. E. Strigari