Glueball Properties at Finite Temperature in SU(3) Anisotropic Lattice QCD
Abstract
The thermal properties of the glueballs are studied using SU(3) anisotropic lattice QCD with beta=6.25, the renormalized anisotropy xi=as/at=4 over the lattice of the size 203× Nt with Nt = 24, 26, 28, 30, 33, 34, 35, 36, 37, 38, 40, 43, 45, 50, 72 at the quenched level. To construct a suitable operator on the lattice, we adopt the smearing method, and consider its physical meaning in terms of the operator size. First, we construct the temporal correlators G(t) for the 0++ and 2++ glueballs, using more than 5,000 gauge configurations at each temperature. We then measure the pole-mass of the thermal glueballs from G(t). For the lowest 0++ glueball, we observe a significant pole-mass reduction of about 300 MeV near Tc or mG(T Tc) 0.8 mG(T 0), while its size remains almost unchanged as rho(T) 0.4fm. Finally, for completeness, as an attempt to take into account the effect of thermal width Gamma(T) at finite temperature, we perform a more general new analysis of G(t) based on its spectral representation. By adopting the Breit-Wigner form for the spectral function rho(omega), we perform the best-fit analysis as a straightforward extension to the standard pole-mass analysis. The result indicates a significant broadening of the peak as Gamma(T) 300 MeV as well as rather modest reduction of the peak center of about 100 MeV near Tc for the lowest 0++ glueball. The temporal correlators of the color-singlet modes corresponding to these glueballs above Tc are also investigated.
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