2019A&A...627A..61G


Query : 2019A&A...627A..61G

2019A&A...627A..61G - Astronomy and Astrophysics, volume 627A, 61-61 (2019/7-1)

Limiting magnetic field for minimal deformation of a magnetized neutron star.

GOMES R.O., PAIS H., DEXHEIMER V., PROVIDENCIA C. and SCHRAMM S.

Abstract (from CDS):

Aims. In this work, we study the structure of neutron stars under the effect of a poloidal magnetic field and determine the limiting largest magnetic field strength that induces a deformation such that the ratio between the polar and equatorial radii does not exceed 2%. We consider that, under these conditions, the description of magnetic neutron stars in the spherical symmetry regime is still satisfactory. Methods. We described different compositions of stars (nucleonic, hyperonic, and hybrid) using three state-of-the-art relativistic mean field models (NL3ωρ, MBF, and CMF, respectively) for the microscopic description of matter, all in agreement with standard experimental and observational data. The structure of stars was described by the general relativistic solution of both Einstein's field equations assuming spherical symmetry and Einstein-Maxwell's field equations assuming an axi-symmetric deformation. Results. We find a limiting magnetic moment on the order of 2x1031Am2, which corresponds to magnetic fields on the order of 1016G at the surface and 1017G at the center of the star, above which the deformation due to the magnetic field is above 2%, and therefore not negligible. We show that the intensity of the magnetic field developed in the star depends on the equation of state (EoS), and, for a given baryonic mass and fixed magnetic moment, larger fields are attained with softer EoS. We also show that the appearance of exotic degrees of freedom, such as hyperons or a quark core, is disfavored in the presence of a very strong magnetic field. As a consequence, a highly magnetized nucleonic star may suffer an internal conversion due to the decay of the magnetic field, which could be accompanied by a sudden cooling of the star or a gamma ray burst.

Abstract Copyright: © ESO 2019

Journal keyword(s): equation of state - magnetic fields - stars: neutron

Simbad objects: 4

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Number of rows : 4
N Identifier Otype ICRS (J2000)
RA
ICRS (J2000)
DEC
Mag U Mag B Mag V Mag R Mag I Sp type #ref
1850 - 2023
#notes
1 PSR J0348+0432 Psr 03 48 43.6363173480 +04 32 11.461921260           ~ 232 2
2 V* CM Tau Psr 05 34 31.9474694616 +22 00 52.153698024           ~ 5119 0
3 NAME Vela Pulsar Psr 08 35 20.65525 -45 10 35.1545     15.10     ~ 2245 1
4 PSR J1614-2230 Psr 16 14 36.5070 -22 30 31.207           ~ 359 1

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2023.04.01-12:54:41

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