Anomaly matching for phase diagram of massless ZN-QCD
Abstract
We elucidate that the phase diagram of massless N-flavor QCD under ZN flavor-twisted boundary condition (massless ZN-QCD) is constrained by an 't Hooft anomaly involving two-form gauge fields. As a consequence, massless ZN-QCD turns out to realize persistent order at any temperatures and quark chemical potentials, namely, the symmetric and gapped phase is strictly forbidden. This is the first result on the finite-(T,μ) phase diagram in QCD-type theories based on anomaly matching related to center and discrete axial symmetries.
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