Running charm quark mass versus MD and the D(s) into μ decay
Abstract
I study (for the first time) the dependence of MD and of the leptonic decay constant fD on the variation of the running charm quark mass mc(). I conclude that the present data on fDs from Ds into μ decay give a weaker constraint than MD, where the latter leads to the result, mc(Mc)=(1.08 0.11) GeV, to two-loop accuracy in the MS-bar scheme, in good agreement with the value mc(Mc)=(1.23+0.04-0.05) GeV extracted directly, within the same approximation, from MJ/. The agreement of the corresponding perturbative pole mass with the one extracted directly from the data can indicate that the non-perturbative effects to the pole mass are negligible. Inversely, injecting the average value of mc(Mc) from MD and MJ/ into the mc behaviour of fD, I obtain fD (1.52 0.16)fπ, which combined with the sum rule prediction for fDs/fD, gives fDs (1.75 0.18)fπ in good agreement with the data. The extension of the analysis to the case of fB and fD* is discussed.
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