Precise predictions for b c semileptonic decays

Abstract

We calculate the b c form factors and decay rates for all possible b c four-Fermi interactions beyond the Standard Model, including nonzero charged lepton masses and terms up to order αs\, QCD/mc,b and QCD2/mc2 in the heavy quark effective theory. At this order, we obtain model independent predictions for semileptonic b c decays in terms of only two unknown sub-subleading Isgur-Wise functions, which can be determined from fitting LHCb and lattice QCD data. We thus obtain model independent results for b c decays, including predictions for the ratio R(c) = B(b c τ) / B(b c μ) in the presence of new physics, that are more precise than prior results in the literature, and systematically improvable with better data on the decays with μ (or e) in the final state. We also explore tests of factorization in b cπ decays, and emphasize the importance of measuring at LHCb the double differential rate d2(bc) / (d q2\, dθ), in addition to the q2 spectrum.