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The influence of strong magnetic fields and instantons on the phase structure of the two-flavor NJL model

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arxiv 0911.2164 v2 pith:2S34UIAM submitted 2009-11-11 hep-ph

The influence of strong magnetic fields and instantons on the phase structure of the two-flavor NJL model

classification hep-ph
keywords magneticphasefieldsminimapotentialstrongbreakingchemical
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Both in heavy-ion collisions as in magnetars very strong magnetic fields are produced, which has its influence on the phases of matter involved. In this paper we investigate the effect of strong magnetic fields (B = 5 m_pi^2 /e = 1.7 x 10^19 G) on the chiral symmetry restoring phase transition using the Nambu-Jona-Lasinio model. It is observed that the pattern of phase transitions depends on the relative magnitude of the magnetic field and the instanton interaction strength. We study two specific regimes in the phase diagram, high chemical potential and zero temperature and vice versa, which are of relevance for neutron stars and heavy-ion collisions respectively. In order to shed light on the behavior of the phase transitions we study the dependence of the minima of the effective potential on the occupation of Landau levels. We observe a near-degeneracy of multiple minima with differing occupation numbers, of which some become the global minimum upon changing the magnetic field or the chemical potential. These minima differ considerably in the amount of chiral symmetry breaking and in some cases also of isospin breaking.

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    hep-ph 2026-06 unverdicted novelty 5.0

    Coupled DSE solutions show gluon screening mass increase suppresses quark-gluon interaction and drives inverse magnetic catalysis near the chiral phase transition.