A Closer Look at Perturbative Corrections in the b->c Semileptonic Transitions

Abstract

We comment on two recent calculations of the second order perturbative corrections in the heavy flavor semileptonic transitions within the Brodsky-Lepage-Mackenzie approach. It is pointed out that the results do not show significant enhancement either in the inclusive b→ c decays or in the exclusive amplitudes at zero recoil provided that the expansion parameter is chosen in a way appropriate to the kinematics at hand. The values of the second-order coefficients inferred from the BLM-type calculations appear to be of order unity in the both cases. Thus, in both cases no significant uncertainty in extracting Vcb can be attributed to perturbative effects. The theoretical accuracy is mostly determined by the existing uncertainty in 1/mc2 nonperturbative corrections in the exclusive B→ D* amplitude, and, to a lesser extent, by the uncertainty in the estimated value of the kinetic energy matrix element μπ2 in the case of sl(b→ c). The theoretical accuracy of the inclusive method of determination of Vcb seemingly competes with and even exceeds the experimental accuracy.

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