Constraints on neutrino lifetime from the Sudbury Neutrino Observatory

B. Aharmim,S. N. Ahmed,A. E. Anthony,N. Barros,E. W. Beier,A. Bellerive,B. Beltran,M. Bergevin,S. D. Biller, R. Bonventre,K. Boudjemline,M. G. Boulay,B. Cai, E. J. Callaghan,J. Caravaca,Y. D. Chan,D. Chauhan,M. Chen,B. T. Cleveland,G. A. Cox,X. Dai,H. Deng, F. B. Descamps,J. A. Detwiler,P. J. Doe,G. Doucas, P.-L. Drouin,M. Dunford,S. R. Elliott,H. C. Evans,G. T. Ewan,J. Farine, H. Fergani,F. Fleurot, R. J. Ford,J. A. Formaggio,N. Gagnon, K. Gilje,J. Tm. Goon,K. Graham,E. Guillian,S. Habib,R. L. Hahn,A. L. Hallin,E. D. Hallman,P. J. Harvey,R. Hazama,W. J. Heintzelman,J. Heise,R. L. Helmer,A. Hime,C. Howard,M. Huang,P. Jagam,B. Jamieson,N. A. Jelley, M. Jerkins, C. Kéfélian,K. J. Keeter,J. R. Klein,L. L. Kormos,M. Kos,A. Krüger,C. Kraus,C. B. Krauss,T. Kutter,C. C. M. Kyba,B. J. Land,R. Lange,J. Law,I. T. Lawson,K. T. Lesko,J. R. Leslie,I. Levine,J. C. Loach,R. MacLellan,S. Majerus, H. B. Mak,J. Maneira,R. D. Martin,A. Mastbaum,N. McCauley,A. B. McDonald, S. R. McGee,M. L. Miller,B. Monreal,J. Monroe, B. G. Nickel,A. J. Noble,H. M. O’Keeffe,N. S. Oblath, C. E. Okada, R. W. Ollerhead,G. D. Orebi Gann,S. M. Oser, R. A. Ott,S. J. M. Peeters,A. W. P. Poon,G. Prior,S. D. Reitzner,K. Rielage,B. C. Robertson,R. G. H. Robertson,M. H. Schwendener,J. A. Secrest,S. R. Seibert, O. Simard,D. Sinclair,P. Skensved,T. J. Sonley,L. C. Stonehill,G. Tešić,N. Tolich, T. Tsui,R. Van Berg,B. A. VanDevender,C. J. Virtue, B. L. Wall,D. Waller,H. Wan Chan Tseung,D. L. Wark,J. Wendland,N. West,J. F. Wilkerson,J. R. Wilson, T. Winchester,A. Wright,M. Yeh,F. Zhang,K. Zuber

PHYSICAL REVIEW D（2019）

Cited 37|Views91

No score

Abstract

The long baseline between Earth and the Sun makes solar neutrinos an excellent test beam for exploring possible neutrino decay. The signature of such decaywould be an energy-dependent distortion of the traditional survival probability which can be fit for using well-developed and high-precision analysis methods. Here a model including neutrino decay is fit to all three phases of B-8 solar neutrino data taken by the SudburyNeutrino Observatory (SNO). This fit constrains the lifetime of neutrino mass state nu(2) to be > 8.08 x 10(-5) s/eV at 90% confidence. An analysis combining this SNO result with those from other solar neutrino experiments results in a combined limit for the lifetime of mass state nu(2) of > 1.92 x 10(-3) s/eV at 90% confidence.

Translated text

Key words

neutrino lifetime

AI Read Science

Must-Reading Tree

Example

Generate MRT to find the research sequence of this paper

Chat Paper

Summary is being generated by the instructions you defined