On Effective Field Theories at Finite Temperature
Abstract
Chapter one is devoted to a study of fermions and bosons in two spatial dimensions in external electromagnetic fields. The effectve action is calculated by integrating out the matter fields. In chapter two, I investigate the resummation program of Braaten and Pisarski. I calculate the screening mass squared and the free energy in Yukwava theory to two and three-loop order, respectively, in resummed perturbation theory. The main part of the present work is on effective field theories at finite temperature. I discuss the concepts of dimensional reduction, modern renormalization theory, and renormalizable field theories (``fundamental theories'') versus non-renormalizable theories (``effective theories''). Two methods for constructing effective three dimensional field theories are discussed. The first is based on the effective potential, and is applied to field theory with
N
charged U(N) symmetric scalar coupled to an Abelian gauge field. The second method is an effective field theory approach based on diagrammatical methods, recently developed by Braaten and Nieto. I apply the methods to various problems in spinor and scalar QED.