Evolution of Isolated Neutron Stars
Abstract
In this paper we briefly review our recent results on evolution and properties of isolated neutron stars (INSs) in the Galaxy. As the first step we discuss stochastic period evolution of INSs. We briefly discuss how an INS's spin period evolves under influence of interaction with turbulized interstellar medium. To investigate statistical properties of the INS population we calculate a census of INSs in our Galaxy. Then we show that for exponential field decay the range of minimum value of magnetic moment, μb: 1029.5 μb 1028 G cm3, and the characteristic decay time, td: 108 td 107 yrs, can be excluded assuming the standard initial magnetic momentum, μ0=1030 G cm3, if accreting INSs are observed. It is shown that old accreting INSs become more abundant than young cooling INSs at X-ray fluxes below 10-13 erg cm-2 s-1. The weak ROSAT sources, associated with INSs, can be young cooling objects, if the NSs birth rate in the solar vicinity during the last 106 yr was much higher than inferred from radiopulsar observations.
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