Lattice Study of Radiative $J/Ï$ Decay to a Tensor Glueball
arXiv:1304.3807 · doi:10.1103/PhysRevLett.111.091601
Abstract
The radiative decay of $J/Ï$ into a pure gauge tensor glueball is studied in the quenched lattice QCD formalism. With two anisotropic lattices, the mutlipole amplitudes E_1(0), M_2(0) and E_3(0) are obtained to be 0.114(12)(6)GeV, -0.011(5)(1)GeV, and 0.023(8)(1)GeV, respectively. The first error comes from the statistics, the Q^2 interpolation, and the continuum extrapolation, while the second is due to the uncertainty of the scale parameter r_0^{-1}=410(20) MeV. Thus the partial decay width $Î(J/Ï\rightarrow γG_{2^{++}})$ is estimated to be 1.01(22)(10) keV which corresponds to a large branch ratio 1.1(2)(1)x10^{-2}. The phenomenological implication of this result is also discussed.
5 pages, 3 figures. Title modified, references added, and typos corrected. The systematic errors owing to the uncertainty of the scale parameter r_0 is considered. Published version in PRL