Precise determination of decay rates for ηc γ γ, J/ γ ηc and J/ ηc e+e- from lattice QCD

Abstract

We calculate the decay rates for ηc γ γ, J/ γ ηc and J/ ηc e+e- in lattice QCD with u, d, s and c quarks in the sea for the first time. We improve significantly on previous theory calculations to achieve accuracies of 1--2\%, giving lattice QCD results that are now more accurate than the experimental values. In particular our results transform the theoretical picture for ηcγγ decays. We use gluon field configurations generated by the MILC collaboration that include nf=2+1+1 flavours of Highly Improved Staggered (HISQ) sea quarks at four lattice spacing values from 0.15 fm to 0.06 fm and with sea u/d masses down to their physical value. We also implement the valence c quarks using the HISQ action. We find (ηc γ γ) = 6.788(45)fit(41)syst \: keV, in good agreement with experimental results using γγ ηc KKπ but in 4σ tension with the Particle Data Group global fit result; we suggest this fit is revisited. We also calculate (J/ γ ηc) = 2.219(17)fit(18)syst(24)expt(4)QED \; keV, in good agreement with results from CLEO, and predict the Dalitz decay rate (J/ ηc e+ e-) = 0.01349(21)latt(13)QED \; keV. We use our results to calibrate other theoretical approaches and to test simple relationships between the form factors and J/ decay constant expected in the nonrelativistic limit.