Finite-density QCD, PT symmetry, and exotic phases
Abstract
We study the phase structure of effective models of finite-density QCD using analytic and lattice simulation techniques developed for the study of non-Hermitian and PT-symmetric QFTs. Finite-density QCD is symmetric under the combined operation of the charge and complex conjugation operators CK, which falls into the class of so-called generalized PT symmetries. We show that PT-symmetric quantum field theories can support patterned ground-state field configurations in the vicinity of a critical endpoint. We apply our methods to a lattice heavy quark model at nonzero chemical potential that displays patterning behavior for a range of parameters. We derive a simple approximate criterion for the formation of these patterns, which can be used with lattice results.
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