Magnetic and spin evolution of neutron stars in close binaries

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Abstract

The evolution of neutron stars in close binary systems with a low-mass companion is considered, assuming the magnetic field to be confined within the solid crust. We adopt the standard scenario for the evolution in a close binary system, in which the neutron star passes through four evolutionary phases ('isolated pulsar' - 'propeller' - accretion from the wind of a companion - accretion resulting from Roche-lobe overflow). Calculations have been performed for a great variety of parameters characterizing the properties of both the neutron star and the low-mass companion. We find that neutron stars with more or less standard magnetic field and spin period that are processed in low-mass binaries can evolve to low-field rapidly rotating pulsars. Even if the main-sequence life of a companion is as long as 1010 yr, the neutron star can maintain a relatively strong magnetic field to the end of the accretion phase. The model that is considered can account well for the origin of millisecond pulsars.

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Urpin, V., Geppert, U., & Konenkov, D. (1998). Magnetic and spin evolution of neutron stars in close binaries. Monthly Notices of the Royal Astronomical Society, 295(4), 907–920. https://doi.org/10.1046/j.1365-8711.1998.01375.x

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