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A Thermal Field Theory with Non-uniform Chemical Potential

arXiv:1307.8323 · doi:10.1103/PhysRevD.88.125009

Abstract

We investigate thermal one-loop effective potentials in multi-flavor models with chemical potentials. We study four-dimensional models in which each flavor have different global U(1) charges. Accordingly they have different chemical potentials. We call these "non-uniform chemical potentials," which are organized into a diagonal matrix μ. The mass matrix at a vacuum does not commute with μ. We find that the effective potential is divided into three parts. The first part is the Coleman-Weinberg potential. The UV divergence resides only in this part. The second is the correction to the Coleman-Weinberg potential that is independent of temperature, and the third depends on both temperature and μ. Our result is a generalization of the thermal potentials in previous studies for models with single and multi-flavors with (uniform) chemical potentials and reproduces all the known results correctly.

22 pages, a new section for a simple example added, some arguments clarified, references added