Study of B+ μ+ μ decays at Belle and Belle II

Abstract

We report a measurement of the branching fraction for the leptonic decay B+μ+μ. This work presents the first B+μ+μ result using Belle~II data, an updated Belle measurement that supersedes the previous result, and their combination, which yields the most precise search to date. The analysis is based on 1076\,fb-1 of e+e- collision data collected at a center-of-mass energy of 10.58\,GeV with the Belle and Belle~II detectors at the KEKB and SuperKEKB colliders, respectively. We measure B(B+μ+μ)=(4.41.9 1.0)×10-7, where the first uncertainty is statistical and the second systematic. The observed significance relative to the background-only hypothesis is 2.4 standard deviations. We set a 90\% confidence level upper limit of B(B+μ+μ)<6.7×10-7 using a frequentist approach and a 90\% credibility level upper limit of B(B+μ+μ)<7.2× 10-7 using a Bayesian approach. These are the most stringent limits to date. The result is interpreted as an exclusion region in the parameter space of type~II and type~III two-Higgs-doublet models. We search for stable sterile neutrinos with masses mN∈[0,1.5]\,GeV. No signal is observed, and the resulting exclusion on the squared mixing parameter |Uμ N|2 provides improvement over previous limits. We report a measurement of the partial branching fraction of semileptonic B Xu decays with pμB>2.2\,GeV, obtaining (B Xu)=(2.720.050.29)×10-4. We present a model-dependent study of weak annihilation decays using the muon momentum spectrum. We observe a signal of 2.4 standard deviations above the background-only hypothesis in regions where the distribution resembles that of B Xu decays.