Effective theory approach to new physics in b u and b c leptonic and semileptonic decays

Abstract

Recent measurements of exclusive B- τ-\, and B0 π+\,l-\,l decays via the b u\,l\, transition process differ from the standard model expectation and, if they persist in future B experiments, will be a definite hint of the physics beyond the standard model. Similar hints of new physics have been observed in b c semileptonic transition processes as well. BABAR measures the ratio of branching fractions of B (D,\,D)\,τ\, to the corresponding B (D,\,D)\,l, where l represents either an electron or a muon, and finds 3.4σ discrepancy with the standard model expectation. In this context, we consider a most general effective Lagrangian for the b u\,l\, and b c\,l\, transition processes in the presence of new physics and perform a combined analysis of all the b u and b c semi-(leptonic) data to explore various new physics operators and their couplings. We consider various new physics scenarios and give predictions for the Bc τ and B πτ decay branching fractions. We also study the effect of these new physics parameters on the ratio of the branching ratios of B πτ to the corresponding B π\,l\, decays.