B*s→ l+l- decays in light of recent B anomalies

Abstract

Some of the recent measurements in the neutral current sector b→ s l+l- (l=e or μ) as well as in the charged current sector b → c τ show significant deviations from their Standard Model predictions. It has been shown that two different new physics solutions, in the form of vector and/or axial vector, can explain all the anomalies in b→ s l+l- sector. We show that the muon longitudinal polarization asymmetry in B*s→ μ+\,μ- decay is a good discriminant between the two solutions if it can be measured to a precision of 10\%, provided the new physics Wilson coefficients are real. We also investigate the potential impact of b → c τ anomalies on Bs* → τ+ τ- decay. We consider a model where the new physics contributions to these two transitions are strongly correlated. We find that two orders of magnitude enhancement in the branching ratio of B*s→ τ+\,τ- is allowed by the present b → c τ data.