Thermodynamics of compact-star matter within an ising approach

In the formation and evolution of compact stars, nuclear matter explores high thermal excursions and is the site of intense neutrino emission. Neutrino transport as well as structural properties of this matter depend on the presence of inhomogeneous phases (named "pasta" phases), which are...

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Veröffentlicht in:	arXiv.org 2006-10
Hauptverfasser:	Chomaz, P, Ducoin, C, Gulminelli, F, Hasnaoui, K H O, Napolitani, P
Format:	Artikel
Sprache:	eng
Schlagworte:	Critical point Ferromagnetism Frustration Ising model Neutrinos Nuclear matter Nuclei (nuclear physics) Opalescence Pasta Phase transitions Phenomenology Stellar evolution Vapor phases Variations
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creator	Chomaz, P Ducoin, C Gulminelli, F Hasnaoui, K H O Napolitani, P
description	In the formation and evolution of compact stars, nuclear matter explores high thermal excursions and is the site of intense neutrino emission. Neutrino transport as well as structural properties of this matter depend on the presence of inhomogeneous phases (named "pasta" phases), which are the result of Coulomb frustration of the Liquid-Gas phase transition. We take into account charge fluctuations by employing a frustrated lattice-gas model to which we impose a neutrality constraint by the addition of an homogeneous background of charge, representing delocalised electrons. Within this schematic model we highlight a generaic feature of the phase-transition phenomenology: the temperature interval where pasta phases are formed is enhanced by Coulomb-frustration effects. This result is at variance with the behaviour of frustrated ferromagnetic systems as well as hot nuclei and mean-field approaches. Moreover, the region of phase coexistence is not found to end upon a critical point, indicating that no critical opalescence can occur in compact-star matter.
doi_str_mv	10.48550/arxiv.0610007
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subjects	Critical point Ferromagnetism Frustration Ising model Neutrinos Nuclear matter Nuclei (nuclear physics) Opalescence Pasta Phase transitions Phenomenology Stellar evolution Vapor phases Variations
title	Thermodynamics of compact-star matter within an ising approach
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