n K and the baryon asymmetry of the universe

Abstract

The observed baryon asymmetry (BAU) of the universe puts strong constraints on any (B-L)-violating interaction. An observation of a (B-L)-violating nucleon decay channel would therefore have profound implications for our understanding of the BAU. Here we point out that the observation of the final state with a kaon and a charged lepton in a future nucleon decay experiment would hint at (B-L) violation even if the charge of the lepton is not determined experimentally. In SMEFT, this follows from the fact that n K+- arises already at dimension seven, while the (B-L)-conserving decay n K-+ requires dimension-ten operators that, in addition, would be accompanied by lower-dimensional (B+L)-violating decay modes. An observation of n K in the absence of other modes such as p π0+, would then strongly suggest that (B-L) is violated.