η and η' production in J/ radiative decays from quantum chromodynamics

Abstract

We present a first principles calculation within quantum chromodynamics (QCD) of the radiative decays of the J/ into the light pseudoscalar mesons η and η'. Within a lattice computation we obtain the transition form-factors as a function of photon virtuality from the timelike region, accessible experimentally via the 'Dalitz' decay J/ e+ e-\, η() , through to the real photon point corresponding to J/ γ\, η() . This is the first calculation in lattice QCD with two (heavier than physical) degenerate flavors of light quark and a heavier strange quark, in which the η' appears as the first-excited state with pseudoscalar isoscalar quantum numbers. We access it reliably by using variationally optimized operators, use of which also improves the purity of the J/ and η signals, reducing systematic uncertainties. High quality results at a large number of kinematic points are obtained in a typically noisy disconnected process by using a novel correlator averaging procedure. Our results show the expected enhanced production of the η' over the η in this process, and suggest that the demonstrated lattice technology is suitable for future calculations considering processes in which light meson resonances are produced.