T. Inagaki, T. Kouno, T. Muta
Published 1994-09-26, updated 1994-10-13Version 2
The phase structure of four-fermion theories is thoroughly investigated with varying temperature and chemical potential for arbitrary space-time dimensions $(2 \leq D < 4)$ by using the 1/N expansion method. It is shown that the chiral symmetry is restored in the theory under consideration for sufficiently high temperature and/or chemical potential. The critical line dividing the symmetric and broken phase is given explicitly. It is found that for space-time dimension $2 \leq D < 3$ both the first-order and second-order phase transition occur depending on the value of temperature and chemical potential while for $3 \leq D < 4$ only the second-order phase transition exists.
Comments: 32 pages, uses LaTeX, here.sty(attached), eepic.sty, HUPD-9402 (some misprints corrected)
Journal: Int.J.Mod.Phys. A10 (1995) 2241-2268
Phase Structure of a Four-Fermion Theory at Finite Temperature and Chemical Potential
Proper-Time Formalism in a Constant Magnetic Field at Finite Temperature and Chemical Potential
Real-time propagators at finite temperature and chemical potential
