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2015ApJ...799...23B -
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Astrophys. J., 799, 23 (2015/January-3)
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On the magnetic field of pulsars with realistic neutron star configurations.
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BELVEDERE R., RUEDA J.A. and RUFFINI R.
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Abstract (from CDS):
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We have recently developed a neutron star model fulfilling global and not local charge neutrality, both in the static and in the uniformly rotating cases. The model is described by the coupled Einstein-Maxwell-Thomas-Fermi equations, in which all fundamental interactions are accounted for in the framework of general relativity and relativistic mean field theory. Uniform rotation is introduced following Hartle's formalism. We show that the use of realistic parameters of rotating neutron stars, obtained from numerical integration of the self-consistent axisymmetric general relativistic equations of equilibrium, leads to values of the magnetic field and radiation efficiency of pulsars that are very different from estimates based on fiducial parameters that assume a neutron star mass M = 1.4 M_{☉}, radius R = 10 km, and moment of inertia I = 10^{45} g cm^{2}. In addition, we compare and contrast the magnetic field inferred from the traditional Newtonian rotating magnetic dipole model with respect to the one obtained from its general relativistic analog, which takes into account the effect of the finite size of the source. We apply these considerations to the specific high-magnetic field pulsar class and show that, indeed, all of these sources can be described as canonical pulsars driven by the rotational energy of the neutron star, and have magnetic fields lower than the quantum critical field for any value of the neutron star mass.

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Abstract Copyright:
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Journal keyword(s):
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equation of state - gravitation - pulsars: general - stars: neutron - stars: rotation
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Simbad objects:
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7

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2021.03.03-04:18:23

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