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General relativistic electromagnetic fields of a slowly rotating magnetized neutron star - II. Solution of the induction equations

Olindo ZanottiSISSA, International School for Advanced Studies, Via Beirut 2-4, 34014 Trieste, ItalyLuciano RezzollaINFN, Department of Physics, University of Trieste, Via A. Valerio 2, 34127 Trieste, Italy
2002en
ABI

Аннотация

We have solved numerically the general relativistic induction equations in the interior background space -time of a slowly rotating magnetized neutron star. The analytic form of these equations was discussed recently (Paper I), where corrections due to both the spacetime curvature and the dragging of reference frames were shown to be present. Through a number of calculations we have investigated the evolution of the magnetic field with different rates of stellar rotation, different inclination angles between the magnetic moment and the rotation axis, as well as different values of the electrical conductivity. All of these calculations have been performed for a constant-temperature relativistic polytropic star and make use of a consistent solution of the initial-value problem which avoids the use of artificial analytic functions. Our results show that there exist general relativistic effects introduced by the rotation of the space -time which tend to decrease the decay rate of the magnetic field. The rotation-induced corrections are however generally hidden by the high electrical conductivity of the neutron star matter, and when realistic values for the electrical conductivity are considered, these corrections become negligible even for the fastest known pulsar.

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