Disintegration of beauty: a precision study

Abstract

We update the Standard Model (SM) predictions for B-meson lifetimes within the heavy quark expansion (HQE). Including for the first time the contribution of the Darwin operator, SU(3)F breaking corrections to the matrix element of dimension-six four-quark operators and the so-called eye-contractions, we obtain for the total widths (B+) = (0.58+0.11-0.07) \, ps-1, (Bd) = (0.63+0.11-0.07) \, ps-1, (Bs) = (0.63+0.11-0.07) \, ps-1, and for the lifetime ratios τ (B+) / τ (Bd) = 1.086 0.022, τ (Bs) / τ (Bd) = 1.003 0.006 \, (1.028 0.011). The two values for the last observable arise from using two different sets of input for the non-perturbative parameters μπ2(Bd), μG2(Bd), and D3(Bd) as well as from different estimates of the SU(3)F breaking in these parameters. Our results are overall in very good agreement with the corresponding experimental data, however, there seems to emerge a tension in τ (Bs)/τ (Bd) when considering the second set of input parameters. Specifically, this observable is extremely sensitive to the size of the parameter D3 (Bd) and of the SU(3)F breaking effects in μπ2, μG2 and D3; hence, it is of utmost importance to be able to better constrain all these parameters. In this respect, an extraction of μπ2 (Bs), μG2 (Bs), D3 (Bs) from future experimental data on inclusive semileptonic Bs-meson decays or from direct non-perturbative calculations, as well as more insights about the value of D3 (B) extracted from fit, would be very helpful in reducing the corresponding theory uncertainties.