J/ at high temperatures in anisotropic lattice QCD
Abstract
J/ and ηc above the QCD critical temperature Tc are studied in anisotropic quenched lattice QCD, considering whether the c c systems above Tc are compact quasi-bound states or scattering states. We adopt the standard Wilson gauge action and O(a)-improved Wilson quark action with renormalized anisotropy as/at =4 at β=6.10 on 163× (14-26) lattices, which correspond to the spatial lattice volume V L3(1.55 fm)3 and temperatures T(1.11-2.07)Tc. To clarify whether compact charmonia survive in the deconfinement phase, we investigate spatial boundary-condition dependence of the energy of the c c systems above Tc. In fact, for low-lying c c scattering states, there appears a significant energy difference E E (APBC)-E (PBC) between periodic and anti-periodic boundary conditions as E2mc2+3π2/L2-2mc (mc: charm quark mass) on the finite-volume lattice. In contrast, for compact charmonia, there is no significant energy difference between periodic and anti-periodic boundary conditions. As a lattice QCD result, we find almost no spatial boundary-condition dependence for the energy of the c c system in J/ and ηc channels for T(1.11-2.07)Tc, which indicates that J/ and ηc would survive as compact c c quasi-bound states below 2Tc.
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