Left-handed Z' and Z FCNC quark couplings facing new b -> s mu+ mu- data

Abstract

In view of the recent improved data on Bs,d->mu+ mu- and Bd->K*mu+mu- we revisit two simple NP scenarios in which new FCNC currents in b->s mu+ mu- transitions are mediated either entirely by a neutral heavy gauge boson Z' with purely LH complex couplings DeltaLqb(Z') (q=d,s) and couplings to muons DeltaAmu mu(Z') and DeltaVmu mu(Z') or the SM Z boson with LH complex couplings DeltaLqb(Z). We demonstrate how these couplings can be determined by future Delta F=2 and b->s mu+ mu- observables. The correlations between various observables can test these NP scenarios. We present the results as functions of Delta Mq/Delta MqSM, Spsi phi and Spsi KS which should be precisely determined in this decade. We calculate the violation of the CMFV relation between BR(Bs,d-> mu+ mu-) and Delta Ms,d in these scenarios. We find that the data on Bs,d->mu+ mu- from CMS and LHCb can be reproduced in both scenarios but in the case of Z, Delta Ms and Spsi phi have to be very close to their SM values. As far as Bd->K*mu+mu- anomalies are concerned the Z' scenario can significantly soften these anomalies while the Z boson fails because of the small vector coupling to muons. We also point out that recent proposals of explaining these anomalies with the help of a real Wilson coefficient CNP9 implies uniquely an enhancement of Delta Ms with respect to its SM value, while a complex CNP9 allows for both enhancement and suppression of Delta Ms and simultaneously novel CP-violating effects. We also discuss briefly scenarios in which the Z' boson has RH FCNC couplings. In this context we point out a number of correlations between angular observables measured in Bd->K*mu+ mu- that arise in the absence of new CP-violating phases in scenarios with only LH or RH couplings or scenarios in which LH and RH couplings are equal to each other or differ by sign.