In Pursuit of New Physics with B0s,d+-

Abstract

Leptonic rare decays of B0s,d mesons offer a powerful tool to search for physics beyond the Standard Model. The B0sμ+μ- decay has been observed at the Large Hadron Collider and the first measurement of the effective lifetime of this channel was presented, in accordance with the Standard Model. On the other hand, B0sτ+τ- and B0s e+e- have received considerably less attention: while LHCb has recently reported a first upper limit of 6.8×10-3 (95% C.L.) for the B0sτ+τ- branching ratio, the upper bound 2.8× 10-7 (90% C.L.) for the branching ratio of B0s e+e- was reported by CDF back in 2009. We discuss the current status of the interpretation of the measurement of B0sμ+μ-, and explore the space for New-Physics effects in the other B0s,d+- decays in a scenario assuming flavour-universal Wilson coefficients of the relevant four-fermion operators. While the New-Physics effects are then strongly suppressed by the ratio mμ/mτ of the lepton masses in B0sτ+τ-, they are hugely enhanced by mμ/me in B0s e+e- and may result in a B0s e+e- branching ratio as large as about 5 times the one of B0sμ+μ-, which is about a factor of 20 below the CDF bound; a similar feature arises in B0d e+e-. Consequently, it would be most interesting to search for the B0s,d e+e- channels at the LHC and Belle II, which may result in an unambiguous signal for physics beyond the Standard Model.