Thermal evolution of neutron stars in two dimensions

Rodrigo Negreiros, Stefan Schramm, and Fridolin Weber
Phys. Rev. D 85, 104019 – Published 9 May 2012

Abstract

There are many factors that contribute to the breaking of the spherical symmetry of a neutron star. Most notable are rotation, magnetic fields, and/or accretion of matter from companion stars. All these phenomena influence the macroscopic structures of neutron stars, but also impact their microscopic compositions. The purpose of this paper is to investigate the cooling of rotationally deformed, two-dimensional (2D) neutron stars in the framework of general relativity theory, with the ultimate goal of better understanding the impact of 2D effects on the thermal evolution of such objects. The equations that govern the thermal evolution of rotating neutron stars are presented in this paper. The cooling of neutron stars with different frequencies is computed self-consistently by combining a fully general relativistic 2D rotation code with a general relativistic 2D cooling code. We show that rotation can significantly influence the thermal evolution of rotating neutron stars. Among the major new aspects are the appearances of hot spots on the poles, and an increase of the thermal coupling times between the core and the crust of rotating neutron stars. We show that this increase is independent of the microscopic properties of the stellar core, but depends only on the frequency of the star.

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  • Received 3 February 2012

DOI:https://doi.org/10.1103/PhysRevD.85.104019

© 2012 American Physical Society

Authors & Affiliations

Rodrigo Negreiros* and Stefan Schramm

  • FIAS, Goethe University, Ruth Moufang Str. 1, 60438 Frankfurt, Germany

Fridolin Weber

  • Department of Physics, San Diego State University, 5500 Campanile Drive, San Diego, California 92182, USA

  • *negreiros@fias.uni-frankfurt.de

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Issue

Vol. 85, Iss. 10 — 15 May 2012

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