mc and mb from MBc and improved estimate of fBc and fBc (2S)

Abstract

We extract (for the first time) the correlated values of the running masses mc and mb from MBc using QCD Laplace sum rules (LSR) within stability criteria where pertubative (PT) expressions at N2LO and non-perturbative (NP) gluon condensates at LO are included. Allowing the values of mc,b(mc,b) to move inside the enlarged range of recent estimates from charmonium and bottomium sum rules (Table 1) obtained using similar stability criteria, wee deduce : mc(mc) = 1286(16) MeV and mb(mb) = 4208(8) MeV. Combined with previous estimates (Table 2), we deduce a tentative QCD Spectral Sum Rules (QSSR) average mc(mc) = 1266(6) MeV and mb(mb) = 4197(8) MeV, where the errors come from the precise determinations from J/psi and Upsilon sum rules. As a result, we present an improved prediction of fBc =371(17)MeV and the tentative upper bound fBc(2S)<139(6) MeV, which are useful for a further analysis of Bc-decays.