Two-loop QCD corrections to b c transitions at zero recoil
Abstract
Complete two-loop QCD corrections to b c transitions are presented in the limit of zero recoil. Vector and axial-vector coefficients ηA,V are calculated analytically in the limit of equal beauty and charm masses, and a series appoximation is obtained for the general mass case. ηA is crucial for the determination of the absolute value of the Cabibbo-Kobayashi-Maskawa matrix element Vcb. The two-loop effects enhance the one-loop corrections by 21\%, removing a major theoretical uncertainty in the value of |Vcb|. Including two-loop QCD effects and previously neglected electroweak and Coulomb corrections we find |Vcb| = 0.0379 0.0020( stat) 0.0025( syst) 0.0011( theory).
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