Coexistence of Multiple Phases in Magnetized Quark Matter with Vector Repulsion

Abstract

We explore the phase structure of dense magnetized quark matter when a repulsive vector interaction, parametrized by GV, is present. Our results show that for a given magnetic field intensity (B) one may find a value of GV for which quark matter may coexist at three different baryonic density values leading to the appearance of two triple points in the phase diagram which have not been observed before. Another novel result is that at high pressure and low temperature we observe a first order transition which presents a negative slope in the P-T that is reminiscent of the solid-liquid transition line observed within the water phase diagram. These unusual patterns occur for GV and B values which lie within the range presently considered in many investigations related to the study of magnetars.