Penguin contribution to width difference and CP asymmetry in Bq- Bq mixing at order αs2 Nf

Abstract

We present new contributions to the decay matrix element 12q of the Bq- Bq mixing complex, where q=d or s. Our new results constitute the order αs2 Nf corrections to the penguin contributions to the Wilson coefficients entering 12q with full dependence on the charm quark mass. This is the first step towards the prediction of the CP asymmetry a fsq quantifying CP violation in mixing at next-to-next-to-leading logarithmic order (NNLO) in quantum chromodynamics (QCD) and further improves the prediction of the width difference q between the two neutral-meson eigenstates. We find a sizable effect from the non-zero charm mass and our partial NNLO result decreases the NLO penguin corrections to a fsq by 37\% and those to q by 16\%. We further update the Standard-Model NLO predictions for a fsq and the ratio of the width and mass differences of the Bq eigenstates: If we express the results in terms of the pole mass of the bottom quark we find a fss=(2.07 0.10)· 10-5, a fsd=(-4.71 0.24)· 10-4, s/Ms = (4.33 1.26)· 10-3, and d/Md = (4.48 1.19)· 10-3. In the MS scheme these numbers read as fs =(2.04 0.11)· 10-5, ad fs = (-4.64 0.25)· 10-4, s/Ms = (4.97 1.02)· 10-3, and d/Md = (5.07 0.96)· 10-3.