Hadronic Correlation Functions in the Interacting Instanton Liquid
arXiv:hep-ph/9512384 · doi:10.1103/PhysRevD.54.1099
Abstract
We study hadronic correlation functions in the interacting instanton liquid model, both at zero and nonzero temperature $T$. At zero $T$ we investigate the dependence of the correlators on the instanton ensemble, in particular the effect of the fermionic determinant. We demonstrate that quark-induced correlations between instantons are important, especially in the repulsive $η'$ and $δ$-meson channels. We also calculate a large number of mesonic and baryonic correlation functions as a function of temperature. We find three different types of behavior as $T\to T_c$. The vector channels $Ï,a_1,Î$ show a gradual melting of the resonance contribution and approach free quark behavior near the chiral phase transition. The light pseudoscalars and scalars $Ï,Ï$, as well as the nucleon show stable resonance contributions, probably even surviving above $T_c$. Correlation functions in the heavy scalar channels $η',δ$ are enhanced as $T\to T_c$.
34 pages, Revtex, 7 postscript figures