A new perturbative scheme for interacting nonequilibrium thermal quantum fields using thermo field dynamics is outlined by explicitly considering the temporal change of the thermal vacuum as it moves through many inequivalent state vector spaces. One is then naturally led to two sources of time dependence, one from the dynamics and the other from the change of thermal vacuum, which are taken care of by the Hamiltonian and the thermal generator, respectively. To obtain a practical scheme we restrict ourselves by the demand that a spectral representation for the full propagator exists. This leads to a time dependent temperature. The addition of a diagonalization condition for the quasi‐particle Hamiltonian provides the master equation for the number density. We show that our formalism is equivalent to an extended form of the path‐ordering method. This formalism is a first step towards the study of the origin of heat and temperature in high‐energy heavy ion collisions.
ASJC Scopus subject areas
- Physics and Astronomy(all)