Like-sign dimuon charge asymmetry in Randall-Sundurm model

Abstract

We confirm that in order to account for the recent D\ result of large like-sign dimuon charge asymmetry, a considerable large new physics effect in 12s is required in addition to a large CP violating phase in Bs -Bs mixing. In the Randall-Sundrum model of warped geometry, where the fermion fields reside in the bulk, new sources of flavor and CP violation are obtained. We analyze the like-sign dimuon asymmetry in this class of model, as an example of the desired new physics. We show that the wrong charge asymmetry, asls, which is related to the dimuon asymmetry, is significantly altered compared to the Standard Model value. However, experimental limits from Ms, s as well as K mixing and electroweak corrections constrain it to be greater than a σ away from its experimental average value. This model cannot fully account for the D\ anomaly due to its inability to generate sufficient new contribution to the width difference s12, even though the model can generate large contribution to the mass difference Ms12.