Measurement of the cosmic ray and neutrino-induced muon flux at the Sudbury neutrino observatory

Aharmim, B.; Ahmed, S.; Andersen, T.; Anthony, A.; Barros, N.; Beier, E.; Bellerive, A.; Beltran, B.; Bergevin, M.; Biller, S.; Boudjemline, K.; Boulay, M.; Burritt, T.; Cai, B.; Chan, Y.; Chen, M.; Chon, M.; Cleveland, B.; Cox-Mobrand, G.; Currat, C.; Dai, X.; Dalnoki-Veress, F.; Deng, H.; Detwiler, J.; Doe, P.; Dosanjh, R.; Doucas, G.; Drouin, P.-L.; Duncan, F.; Dunford, M.; Elliott, S.; Evans, H.; Ewan, G.; Farine, J.; Fergani, H.; Fleurot, F.; Ford, R.; Formaggio, J.; Gagnon, N.; Goon, J.; Graham, K.; Grant, D.; Guillian, E.; Habib, S.; Hahn, R.; Hallin, A.; Hallman, E.; Hargrove, C.; Harvey, P.; Hazama, R.; Heeger, K.; Heintzelman, W.; Heise, J.; Helmer, R.; Hemingway, R.; Henning, R.; Hime, A.; Howard, C.; Howe, M.; Huang, M.; Jamieson, B.; Jelley, N.; Klein, J.; Kos, M.; Krüger, A.; Kraus, C.; Krauss, C.; Kutter, T.; Kyba, C.; Lange, R.; Law, J.; Lawson, I.; Lesko, K.; Leslie, J.; Levine, I.; Loach, J.; Luoma, S.; MacLellan, R.; Majerus, S.; Mak, H.; Maneira, J.; Marino, A.; Martin, R.; McCauley, N.; McDonald, A.; McGee, S.; Mifflin, C.; Miller, M.; Monreal, B.; Monroe, J.; Noble, A.; Oblath, N.; Okada, C.; O’Keeffe, H.; Opachich, Y.; Gann, G.; Oser, S.; Ott, R.; Peeters, S.; Poon, A.; Prior, G.; Rielage, K.; Robertson, B.; Robertson, R.; Rollin, E.; Schwendener, M.; Secrest, J.; Seibert, S.; Simard, O.; Simpson, J.; Sinclair, D.; Skensved, P.; Smith, M.; Sonley, T.; Steiger, T.; Stonehill, L.; Tagg, N.; Tešić, G.; Tolich, N.; Tsui, T.; de Water, R.; VanDevender, B.; Virtue, C.; Waller, D.; Waltham, C.; Tseung, H.; Wark, D.; Watson, P.; Wendland, J.; West, N.; Wilkerson, J.; Wilson, J.; Wouters, J.; Wright, A.; Yeh, M.; Zhang, F.; Zuber, K.

Author(s)

Formaggio, Joseph A.; Miller, M. L.; Monreal, Benjamin; Monroe, Jocelyn; Ott, Richard A.; ... Show more

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Abstract

Results are reported on the measurement of the atmospheric neutrino-induced muon flux at a depth of 2 kilometers below the Earth’s surface from 1229 days of operation of the Sudbury Neutrino Observatory (SNO). By measuring the flux of through-going muons as a function of zenith angle, the SNO experiment can distinguish between the oscillated and unoscillated portion of the neutrino flux. A total of 514 muonlike events are measured between -1≤cosθ[subscript zenith]≤0.4 in a total exposure of 2.30×10[superscript 14] cm[superscript 2] s. The measured flux normalization is 1.22±0.09 times the Bartol three-dimensional flux prediction. This is the first measurement of the neutrino-induced flux where neutrino oscillations are minimized. The zenith distribution is consistent with previously measured atmospheric neutrino oscillation parameters. The cosmic ray muon flux at SNO with zenith angle cosθ[subscript zenith]>0.4 is measured to be (3.31±0.01(stat)±0.09(sys))×10[superscript -10] μ/s/cm[superscript 2].

Date issued

2009-07

URI

http://hdl.handle.net/1721.1/52698

Department

Massachusetts Institute of Technology. Department of Physics; Massachusetts Institute of Technology. Laboratory for Nuclear Science

Journal

Physical Review D

Publisher

American Physical Society

Citation

Version: Final published version

ISSN

1550-7998

1550-2368

Collections

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