Neutral B meson mixings and B meson decay constants with static heavy and domain-wall light quarks

Abstract

Neutral B meson mixing matrix elements and B meson decay constants are calculated. Static approximation is used for b quark and domain-wall fermion formalism is employed for light quarks. The calculations are carried out on 2+1 flavor dynamical ensembles generated by RBC/UKQCD Collaborations with lattice spacings 0.086fm (a-1 2.3GeV) and 0.11fm (1.7GeV), and a fixed physical spatial volume of about (2.7 fm)3. In the static quark action, link-smearings are used to improve the signal-to-noise ratio. We employ two kinds of link-smearings, HYP1 and HYP2, and their results are combined in taking the continuum limit. For the matching between the lattice and the continuum theory, one-loop perturbative O(a) improvements are made to reduce discretization errors. As the most important quantity of this work, we obtain SU(3) breaking ratio =1.208(60), where the error includes statistical and systematic one. (Uncertainty from infinite b quark mass is not included.) We also find other neutral B meson mixing quantities fBBB=240(22)MeV, fBsBBs=290(22)MeV, BB=1.17(22), BBs=1.22(13) and BBs/BB=1.028(74), B meson decay constants fB=219(17)MeV, fBs=264(19)MeV and fBs/fB=1.193(41), in the static limit of b quark, which do not include infinite b quark mass uncertainty.