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Crust-core transition of a neutron star: effect of the temperature under strong magnetic fields

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arxiv 2106.03590 v2 pith:UUKT2ME3 submitted 2021-06-07 nucl-th astro-ph.HEhep-ph

Crust-core transition of a neutron star: effect of the temperature under strong magnetic fields

classification nucl-th astro-ph.HEhep-ph
keywords transitionmagneticcrust-coreeffectfieldtimesabovetemperature
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The effect of temperature on the crust-core transition of a magnetar is studied. The thermodynamical spinodals are used to calculate the transition region within a relativistic mean-field approach for the equation of state. Magnetic fields with intensities $5\times 10^{16}$ G and $5\times 10 ^{17}$ G are considered. It is shown that the effect on the extension of the crust-core transition is washed away for temperatures above $10^{9}$ K for magnetic field intensities $ \lesssim 5\times 10^{16}$ G but may still persist if a magnetic field as high as $5\times 10 ^{17}$G is considered. For temperatures below that value, the effect of the magnetic field on crust-core transition is noticeable and grows as the temperature decreases and, in particular, it is interesting to identify the existence of disconnected non-homogeneous matter above the $B=0$ crust core transition density. Models with different symmetry energy slopes at saturation show quite different behaviors. In particular, a model with a large slope, as suggested by the recent results of PREX-2, predicts the existence of up to four disconnected regions of non-homogeneous matter above the zero magnetic field crust-core transition density.

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