In the soft-wall holographic QCD model, combined rotation and chemical potential produce spatially inhomogeneous chiral condensation with additive suppression of the critical temperature that becomes position-dependent in rotating systems.
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Non-extensive NJL calculations show that the critical temperature Tc decreases with the Tsallis parameter q and that chiral chemical potential can switch the magnetic field effect from catalysis to inverse catalysis.
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Chiral Condensation and Chiral Phase Diagram under Combined Rotation and Chemical Potential in Holographic QCD
In the soft-wall holographic QCD model, combined rotation and chemical potential produce spatially inhomogeneous chiral condensation with additive suppression of the critical temperature that becomes position-dependent in rotating systems.
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Non-extensive NJL model study of QCD phase structure with chiral imbalance and strong magnetic fields
Non-extensive NJL calculations show that the critical temperature Tc decreases with the Tsallis parameter q and that chiral chemical potential can switch the magnetic field effect from catalysis to inverse catalysis.