Study on ηc2(ηb2) electromagnetic decay into double photons

Abstract

Within the framework of nonrelativistic QCD (NRQCD) factorization formalism, we compute the helicity amplitude as well as the decay width of ηQ2 (Q=c,b) electromagnetic decay into two photons up to next-to-next-to-leading order (NNLO) in αs expansion. For the first time, we verify the validity of NRQCD factorization for the D-wave quarkonium decay at NNLO. We find that the O(αs) and O(αs2) corrections to the helicity amplitude are negative and moderate, nevertheless both corrections combine to suppress the leading-order prediction for the decay width significantly. By approximating the total decay width of ηQ2 as the sum of those for the hadronic decay and the electric E1 transition, we obtain the branching ratios Br(ηc2 2γ)≈ 5×10-6 and Br(ηb2 2γ)≈ 4×10-7. To explore the potential measurement on ηQ2, we further evaluate the production cross section of ηQ2 at LHCb at the lowest order in αs expansion. With the kinematic constraint on the longitudinal rapidity 4.5>y>2 and transverse momentum PT>(2-4)mQ for ηQ2, we find the cross section can reach 2-50 nb for ηc2, and 1-22 pb for ηb2. Considering the integrated luminosity L=10\, fb-1 at s=7 TeV and s=13 TeV, we estimate that there are several hundreds events of pp ηc2 2γ. Since the background is relatively clean, it is promising to reconstruct ηc2 through its electromagnetic decay. On the contrary, due to small branching ratio and production cross section, it is quite challenging to detect ηb2 2γ at LHCb.