Charm as a domain wall fermion in quenched lattice QCD

Abstract

We report a study describing the charm quark by a domain-wall fermion (DWF) in lattice quantum chromodynamics (QCD). Our study uses a quenched gauge ensemble with the DBW2 rectangle-improved gauge action at a lattice cutoff of a-1 3 GeV. We calculate masses of heavy-light (charmed) and heavy-heavy (charmonium) mesons with spin-parity JP = 0 and 1, leptonic decay constants of the charmed pseudoscalar mesons (D and Ds), and the D0-D0 mixing parameter. The charm quark mass is found to be m MSc(mc)=1.24(1)(18) GeV. The mass splittings in charmed-meson parity partners q,J=0 and q, J=1 are degenerate within statistical errors, in accord with experiment, and they satisfy a relation q=ud, J > q=s, J, also consistent with experiment. A C-odd axial vector charmonium state, hc), lies 22(11) MeV above the c1 meson, or mhc = 3533(11) stat. MeV using the experimental c1) mass. However, in this regard, we emphasize significant discrepancies in the calculation of hyperfine splittings on the lattice. The leptonic decay constants of D and Ds mesons are found to be fD=232(7) stat.(+6-0) chiral(11) syst. MeV and fDs/fD = 1.05(2) stat.(+0-2) chiral(2) syst., where the first error is statistical, the second a systematic due to chiral extrapolation and the third error combination of other known systematics. The D0-D0 mixing bag parameter, which enters the C = 2 transition amplitude, is found to be BD(2GeV)=0.845(24) stat.(+24-6) chiral(105) syst..

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