QCD phase-transition and chemical freezeout in nonzero magnetic field at NICA
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INDIAN ASSOC. CULTIVATION SCIENCE
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INDIAN JOURNAL OF PHYSICS;Volume: 91 Issue: 1 Pages: 93-99
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Abstract
Because of relativistic off-center motion of the charged spectators and the local momentum-imbalance experienced by the participants, a huge magnetic field is likely generated in high-energy collisions. The influence of such short-lived magnetic field on the QCD phase-transition(s) is analysed. From Polyakov linear-sigma model, we study the chiral phase-transition and the magnetic response and susceptibility in dependence on temperature, density and magnetic field strength. The systematic measurements of the phase-transition characterizing signals, such as the fluctuations, the dynamical correlations and the in-medium modifications of rho-meson, for instance, in different interacting systems and collision centralities are conjectured to reveal an almost complete description for the QCD phase-structure and the chemical freezeout. We limit the discussion to NICA energies.
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Accession Number: WOS:000397057700011
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Cited References in Web of Science Core Collection: 23