Bose-Einstein condensation in dense nuclear matter and strong magnetic fields
Abstract
Bose-Einstein condensation of antikaons in cold and dense beta-equilibrated matter under the influence of strong magnetic fields is studied within a relativistic mean field model. For magnetic fields > 5 × 1018G, the phase spaces of charged particles are modified resulting in compositional changes in the system. The threshold density of K- condensation is shifted to higher density compared with the field free case. In the presence of strong fields, the equation of state becomes stiffer than that of the zero field case.
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