Bag Parameters for Heavy Meson Lifetimes
Abstract
We calculate the dimension-six Q=0 four-quark matrix elements describing heavy-meson lifetime ratios using the gradient flow with its short flow-time expansion as a renormalization procedure. On six RBC/UKQCD 2+1-flavor domain-wall fermion ensembles, we determine flowed bag parameters for physical charm and strange quarks and match to the MS scheme with perturbative short flow-time expansion coefficients through next-to-next-to-leading order (NNLO). A multi-scale matching procedure using renormalization-group running improves the extrapolation to zero flow time. For the operators relevant to τ(Ds)/τ(D0) at the SU(3) F symmetric point, we obtain B1MS(3\, GeV)=1.0524(97),B2MS(3\, GeV)=0.9621(70), ε1MS(3\, GeV)=-0.2275(76), and ε2MS(3\, GeV)=-0.0005(8) using a specific choice of evanescent operators. This is the first lattice-QCD determination of Q=0 four-quark operators with a full error budget. It opens the path towards higher-precision predictions of heavy-meson lifetimes and similar quantities exhibiting operator mixing under renormalization.
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