Charmonium properties from lattice QCD + QED: hyperfine splitting, J/ leptonic width, charm quark mass and aμc

Abstract

We have performed the first nf = 2+1+1 lattice QCD computations of the properties (masses and decay constants) of ground-state charmonium mesons. Our calculation uses the HISQ action to generate quark-line connected two-point correlation functions on MILC gluon field configurations that include u/d quark masses going down to the physical point, tuning the c quark mass from MJ/ and including the effect of the c quark's electric charge through quenched QED. We obtain MJ/-Mηc (connected) = 120.3(1.1) MeV and interpret the difference with experiment as the impact on Mηc of its decay to gluons, missing from the lattice calculation. This allows us to determine Mηcannihiln =+7.3(1.2) MeV, giving its value for the first time. Our result of fJ/= 0.4104(17) GeV, gives (J/ → e+e-)=5.637(49) keV, in agreement with, but now more accurate than experiment. At the same time we have improved the determination of the c quark mass, including the impact of quenched QED to give mc(3\,GeV) = 0.9841(51) GeV. We have also used the time-moments of the vector charmonium current-current correlators to improve the lattice QCD result for the c quark HVP contribution to the anomalous magnetic moment of the muon. We obtain aμc = 14.638(47) × 10-10, which is 2.5σ higher than the value derived using moments extracted from some sets of experimental data on R(e+e- → hadrons). This value for aμc includes our determination of the effect of QED on this quantity, δ aμc = 0.0313(28) × 10-10.