e-Article
Supernova Electron-Neutrino Interactions with Xenon in the nEXO Detector
Document Type
Working Paper
Author
nEXO Collaboration; Hedges, S.; Kharusi, S. Al; Angelico, E.; Brodsky, J. P.; Richardson, G.; Wilde, S.; Amy, A.; Anker, A.; Arnquist, I. J.; Arsenault, P.; Atencio, A.; Badhrees, I.; Bane, J.; Belov, V.; Bernard, E. P.; Bhatta, T.; Bolotnikov, A.; Breslin, J.; Breur, P. A.; Brown, E.; Brunner, T.; Caden, E.; Cao, G. F.; Cao, L. Q.; Cesmecioglu, D.; Chambers, E.; Chana, B.; Charlebois, S. A.; Chernyak, D.; Chiu, M.; Collister, R.; Cvitan, M.; Dalmasson, J.; Daniels, T.; Darroch, L.; DeVoe, R.; di Vacri, M. L.; Ding, Y. Y.; Dolinski, M. J.; Eckert, B.; Elbeltagi, M.; Elmansali, R.; Fabris, L.; Fairbank, W.; Farine, J.; Fatemighomi, N.; Foust, B.; Fu, Y. S.; Gallacher, D.; Gallice, N.; Gillis, W.; Goeldi, D.; Gorham, A.; Gornea, R.; Gratta, G.; Guan, Y. D.; Hardy, C. A.; Heffner, M.; Hein, E.; Holt, J. D.; Hoppe, E. W.; House, A.; Hunt, W.; Iverson, A.; Kachru, P.; Karelin, A.; Keblbeck, D.; Kuchenkov, A.; Kumar, K. S.; Larson, A.; Latif, M. B.; Leach, K. G.; Lenardo, B. G.; Leonard, D. S.; Lewis, H.; Li, G.; Li, Z.; Licciardi, C.; Lindsay, R.; MacLellan, R.; Majidi, S.; Malbrunot, C.; Martel-Dion, P.; Masbou, J.; McMichael, K.; Medina-Peregrina, M.; Mong, B.; Moore, D. C.; Nattress, J.; Natzke, C. R.; Ngwadla, X. E.; Ni, K.; Nolan, A.; Nowicki, S. C.; Ondze, J. C. Nzobadila; Orrell, J. L.; Ortega, G. S.; Overman, C. T.; Pagani, L.; Smalley, H. Peltz; Perna, A.; Piepke, A.; Franco, T. Pinto; Pocar, A.; Pratte, J. -F.; Rasiwala, H.; Ray, D.; Raymond, K.; Rescia, S.; Riot, V.; Ross, R.; Saldanha, R.; Sangiorgio, S.; Schwartz, S.; Sekula, S.; Soderstrom, J.; Soma, A. K.; Spadoni, F.; Sun, X. L.; Thibado, S.; Tidball, A.; Totev, T.; Triambak, S.; Tsang, R. H. M.; Tyuka, O. A.; van Bruggen, E.; Vidal, M.; Viel, S.; Walent, M.; Wang, Q. D.; Wang, W.; Wang, Y. G.; Watts, M.; Wehrfritz, M.; Wei, W.; Wen, L. J.; Wichoski, U.; Wu, X. M.; Xu, H.; Yang, H. B.; Yang, L.; Yu, M.; Yvaine, M.; Zeldovich, O.; Zhao, J.
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Abstract
Electron-neutrino charged-current interactions with xenon nuclei were modeled in the nEXO neutrinoless double-beta decay detector (~5-tonne, 90% ${}^{136}$Xe, 10% ${}^{134}$Xe) to evaluate its sensitivity to supernova neutrinos. Predictions for event rates and detectable signatures were modeled using the MARLEY event generator. We find good agreement between MARLEY's predictions and existing theoretical calculations of the inclusive cross sections at supernova neutrino energies. The interactions modeled by MARLEY were simulated within the nEXO simulation framework and were run through an example reconstruction algorithm to determine the detector's efficiency for reconstructing these events. The simulated data, incorporating the detector response, were used to study the ability of nEXO to reconstruct the incident electron-neutrino spectrum and these results were extended to a larger xenon detector of the same isotope enrichment. We estimate that nEXO will be able to observe electron-neutrino interactions with xenon from supernovae as far as 5 to 8 kpc from earth, while the ability to reconstruct incident electron-neutrino spectrum parameters from observed interactions in nEXO is limited to closer supernovae.
Comment: 17 pages, 16 figures
Comment: 17 pages, 16 figures