Pure gauge glueballs at finite temperature

Abstract

Pure gauge glueballs at finite temperature are investigated in a large temperature range from 0.3Tc to 1.9Tc on anisotropic lattices. Optimized glueball operators are used to obtain better signals. It is found in all 20 symmetry channels that the pole masses MG of glueballs remain almost constants when the temperature approaches the critical temperature Tc from below, and start to reduce gradually with the temperature going above Tc. The glueball correlators in 0++, 0-+, and 2++ channels, are also analyzed based on the Breit-Wigner ansatz by assuming a thermal width to the pole mass ω0. While ω0's are insensitive to T in the whole temperature range, 's exhibit distinct behavior below and above Tc: They are only few percents of ω0 when T<Tc, but grow abruptly when T>Tc and reach values of roughly ω0/2 at T≈ 1.9Tc.