Rotation lowers critical temperatures for chiral and deconfinement transitions in the Polyakov linear sigma model under causality constraints, with mechanical properties computed in the homogeneous limit.
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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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Linear sigma model with quarks and Polyakov loop in rotation: phase diagrams, Tolman-Ehrenfest law and mechanical properties
Rotation lowers critical temperatures for chiral and deconfinement transitions in the Polyakov linear sigma model under causality constraints, with mechanical properties computed in the homogeneous limit.
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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.