(Pseudo)Scalar Charmonium in Finite Temperature QCD

Abstract

The hadronic parameters of pseudoscalar (ηc) and scalar (c) charmonium are determined at finite temperature from Hilbert moment QCD sum rules. These parameters are the hadron mass, leptonic decay constant, total width, and continuum threshold (s0). Results for s0(T) in both channels indicate that s0(T) starts approximately constant, and then it decreases monotonically with increasing T until it reaches the QCD threshold, sth = 4 mQ2, at a critical temperature T = Tc 180 \; MeV interpreted as the deconfinement temperature. The other hadronic parameters behave qualitatively similarly to those of the J/, as determined in this same framework. The hadron mass is essentially constant, the total width is initially independent of T, and after T/Tc 0.80 it begins to increase with increasing T up to T/Tc 0.90 \; (0.95) for c (ηc), and subsequently it decreases sharply up to T 0.94 \; (0.99) \; Tc, for c (ηc), beyond which the sum rules are no longer valid. The decay constant of c at first remains basically flat up to T 0.80\; Tc, then it starts to decrease up to T 0.90 \;Tc, and finally it increases sharply with increasing T. In the case of ηc the decay constant does not change up to T 0.80 \;Tc where it begins a gentle increase up to T 0.95 \;Tc beyond which it increases dramatically with increasing T. This behaviour contrasts with that of light-light and heavy-light quark systems, and it suggests the survival of the ηc and the c states beyond the critical temperature, as already found for the J/ from similar QCD sum rules. These conclusions are very stable against changes in the critical temperature in the wide range Tc = 180 - 260 \; MeV.