Lattice QCD determination of the radiative decay rates hc ηc\, γ and hb ηb\, γ
Abstract
We present the results of our lattice QCD computation of the hadronic matrix elements relevant to the hc ηcγ and hb ηbγ decays by using the gauge configurations produced by the Extended Twisted Mass Collaboration with Nf=2+1+1 dynamical Wilson-Clover twisted mass fermions at five different lattice spacings with physical dynamical u , d, s and c quark masses (except for the the coarsest lattice for which the lightest sea quark corresponds to a pion with mπ 175~MeV). While the hadronic matrix element for hc ηcγ is obtained directly, the one relevant to hbηbγ is reached by working with heavy quark masses m(n)H = λn-1 mc, with λ 1.24 and n=1,2, … ,6, and then extrapolated to mb by several judicious ans\"atze. In the continuum limit we obtain ( hc ηc γ ) = 0.604(24)~MeV, which is by a factor of 2.3 more accurate than the previous lattice estimates, and in good agreement with the experimental measurement. In the b-quark case we obtain ( hb ηb γ) =46.0(4.8)~keV.
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