A closer look at the RD and RD* anomalies

Abstract

The measurement of RD (RD*), the ratio of the branching fraction of B D τ τ (B D* τ τ) to that of B D l l (B D* l l), shows 1.9 σ (3.3 σ) deviation from its Standard Model (SM) prediction. The combined deviation is at the level of 4 σ according to the Heavy Flavour Averaging Group (HFAG). In this paper, we perform an effective field theory analysis (at the dimension-6 level) of these potential New Physics (NP) signals assuming SU(3)C × SU(2)L × U(1)Y gauge invariance. We first show that, in general, RD and RD* are theoretically independent observables and hence, their theoretical predictions are not correlated. We identify the operators that can explain the experimental measurements of RD and RD* individually and also together. Motivated by the recent measurement of the τ polarisation in B D* τ τ decay, Pτ (D*) by the Belle collaboration, we study the impact of a more precise measurement of Pτ (D*) (and a measurement of Pτ (D)) on the various possible NP explanations. Furthermore, we show that the measurement of RD* in bins of q2, the square of the invariant mass of the lepton-neutrino system, along with the information on τ polarisation and the forward-backward asymmetry of the τ lepton, can completely distinguish the various operator structures. We also provide the full expressions of the double differential decay widths for the individual τ helicities in the presence of all the 10 dimension-6 operators that can contribute to these decays.