Decay constants of heavy pseudoscalar mesons from QCD sum rules

TL;DR

This paper refines the calculation of heavy meson decay constants using QCD sum rules with improved uncertainty control, resulting in precise estimates consistent with lattice QCD results.

Contribution

It introduces a novel dual threshold method depending on the Borel parameter to better control uncertainties in sum-rule extractions of decay constants.

Findings

Calculated decay constants for D, Ds, B, and Bs mesons.

Determined the b-quark mass with high precision from sum-rule matching.

Achieved decay constant estimates consistent with lattice QCD results.

Abstract

We revisit the sum-rule extraction of the decay constants of the D, Ds, B, and Bs mesons from the two-point correlator of heavy-light pseudoscalar currents. We use the operator product expansion for this correlator expressed in terms of the MSbar heavy-quark mass, for which the perturbative expansion exhibits a reasonable convergence. Our main emphasis is laid on the control over the uncertainties in the decay constants, related both to the input QCD parameters and to the limited accuracy of the method of sum-rules. This becomes possible due to the application of our procedure of extracting hadron observables that involves as novel feature dual thresholds depending on the Borel parameter. For charmed mesons, we find the decay constants f_D=206.2\pm 7.3(OPE)\pm 5.1(syst) MeV and f_Ds=245.3\pm 15.7(OPE)\pm 4.5(syst) MeV. For beauty mesons, the decay constants turn out to be extremely sensitive to the precise value of mb(mb). By requiring our sum-rule estimate to match the average of the lattice results for f_B, a very accurate value mb(mb)=4.245\pm 0.025 GeV is extracted, leading to f_B=193.4\pm 12.3(OPE)\pm 4.3(syst) MeV and f_Bs=232.5\pm 18.6(OPE)\pm 2.4(syst) MeV.