Search for invisible modes of nucleon decay in water with the SNO+ detector

M Anderson,S. Andringa,E. Arushanova,S. Asahi,M. Askins,D. J. Auty,A. Back,Z. Barnard,N. Barros,D. Bartlett,F. Barao,R. Bayés,E. W. Beier,A Bialek,S. D. Biller,E. Blucher,R. Bonventre,M. G. Boulay,D. Braid,E. Caden,E. J. Callaghan,J. Caravaca,Joâo Carvalho,L. Cavalli,D Chauhan,M. Chen,Oleg Chkvorets,K. Clark,B. T. Cleveland,C. Connors,I. T. Coulter,D. Cressy,X. Dai,C. Darrach,B. Davis-Purcell,M. M. Depatie,F.B. Descamps,F. Di Lodovico,N. Duhaime,F. A. Duncan,J. Dunger,E. Falk,N. Fatemighomi,V. Fischer,E. Fletcher,R. Ford,N Gagnon,K. Gilje,P. Gorel,K Graham,C. Grant,J Grove,S. Grullon,E. Guillian,A. L. Hallin,D.Hallman,Sunej Hans,J. Hartnell,P. J. Harvey,M. Hedayatipour,W. J. Heintzelman,J Heise,R. L. Helmer,J.L. Hernández-Hernández,B Hreljac,J. Hu,T. Iida,A.S. Inacio,C M Jackson,N. A. Jelley,C Jillings,C. L. Jones,P. G. Jones,K. Kamdin,T. Kaptanoglu,J. Kaspar,K.J. Keeter,C. Kéfélian,P Khaghani,L. Kippenbrock,Jeffrey Klein,R. Knapik,J. N. Kofron,L. L. Kormos,B. Krar,C. Kraus,C. B. Krauss,T. Kroupova,K. Labe,I Lam,C Lan,B.J. Land,R Lane,S. Langrock,A. Latorre,I. T. Lawson,L. Lebanowski,G. Lefeuvre,E. J. Leming,A. Li,J. Lidgard,B. Liggins,X. Liu,Y Liu,V. Lozza,M. Luo,S. Maguire,A Maio,K. Majumdar,S. Manecki,J Maneira,Roman Martin,E. Marzec,A. Mastbaum,N. McCauley,A.B. McDonald,J E McMillan,P. Mękarski,M. Meyer,C A Miller,M. Mlejnek,E. Mony,I. Morton-Blake,M. J. Mottram,S Nae,M. Nirkko,V. M. Novikov,H.M. OKeeffe,E. OSullivan,G. D. Orebi Gann,M.J. Parnell,J Paton,S J M Peeters,T. Pershing,Z. Petriw,L Pickard,D. Pracsovics,G. Prior,J. C. Prouty,Sarah Quirk,A. Reichold,R. Richardson,M Rigan,A. Robertson,J. Rose,Richard Rosero,P. M. Rost,J Rumleskie,M. A. Schumaker,M. H. Schwendener,D. Ścisłowski,J.A. Secrest,M. Seddighin,L. Segui,S. R. Seibert,I. Semenec,T. Shantz,T.M. Shokair,L. Sibley,J. Sinclair,K. Singh,P. Skensved,T. Sonley,R Stainforth,Matthew L Strait,M. I. Stringer,R. Svoboda,A. Sørensen,B Tam,J. Tatar,L. Tian,N Tolich,Jeff Tseng,H.W.C. Tseung,E Turner,R. Van Berg,Jonathan G. C. Veinot,C. J. Virtue,B. von Krosigk,E. Vázquez-Jáuregui,J Walker,M. Walker,J. Wang,O. Wasalski,J Waterfield,J. J. Weigand,R. F. White,J. R. Wilson,T.J. Winchester,P. Woosaree,A Wright,J. P. Yanez,M. Yeh,T. Zhao,Kai Zuber,A Zummo

Search for invisible modes of nucleon decay in water with the SNO+ detector

2019

This paper reports results from a search for nucleon decay through 'invisible' modes, where no visible energy is directly deposited during the decay itself, during the initial water phase of SNO+. However, such decays within the oxygen nucleus would produce an excited daughter that would subsequently de-excite, often emitting detectable gamma rays. A search for such gamma rays yields limits of $2.5 \times 10^{29}$ y at 90% Bayesian credibility level (with a prior uniform in rate) for the partial lifetime of the neutron, and $3.6 \times 10^{29}$ y for the partial lifetime of the proton, the latter a 70% improvement on the previous limit from SNO. We also present partial lifetime limits for invisible dinucleon modes of $1.3\times 10^{28}$ y for $nn$, $2.6\times 10^{28}$ y for $pn$ and $4.7\times 10^{28}$ y for $pp$, an improvement over existing limits by close to three orders of magnitude for the latter two.

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