Solution to the Perturbative Infrared Catastrophe of Hot Gauge Theories

Abstract

The free energy of a nonabelian gauge theory at high temperature T can be calculated to order g5 using resummed perturbation theory, but the method breaks down at order g6. A new method is developed for calculating the free energy to arbitrarily high accuracy in the high temperature limit. It involves the construction of a sequence of two effective field theories by first integrating out the momentum scale T and then integrating out the momentum scale g T. The free energy decomposes into the sum of three terms, corresponding to the momentum scales T, gT, and g2T. The first term can be calculated as a perturbation series in g2(T), where g(T) is the running coupling constant. The second term in the free energy can be calculated as a perturbation series in g(T), beginning at order g3. The third term can also be expressed as a series in g(T) beginning at order g6, with coefficients that can be calculated using lattice simulations of 3-dimensional QCD. Leading logarithms of T/(gT) and of gT/(g2T) can be summed up using renormalization group equations.

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