Determination of Vcb from exclusive decays in a relativistic quark model

Abstract

In the framework of a relativistic covariant Bethe-Salpeter model for the quark-antiquark system we present a renewed determination of the Cabbibo-Kobayashi-Maskawa matrix element |Vcb|. Complementing an earlier analysis applied to the whole decay spectrum for B D* e we now also employ the ``zero-recoil method'' that uses the end point of the decay spectrum (ω=1) and is suited for heavy-to-heavy transitions. The averaged experimental value extracted from the data at zero recoil, |Vcb| F(ω=1)=0.03430.0015, then leads to |Vcb|=0.0360 0.0016. This value is somewhat larger than the one that uses the whole decay spectrum for the model analysis. We also contrast this result to a nonrelativistic model and to recent experiments on the B D e semileptonic decay.

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