The Magnificent Seven: Close-by Cooling Neutron Stars?
Abstract
We model Galactic populations of accreting and cooling isolated neutron stars in the attempt to explore their link with a new class of dim soft X-ray sources revealed by ROSAT. For accretors we follow the magneto-rotational and dynamical evolution in the Galactic potential and a realistic large scale distribution of the interstellar medium is used. Under standard assumptions old neutron stars enter the accretor stage only if their magnetic field exceeds ≈ 1011--1012 G. We predict about 1 source per square degree for fluxes ≈ 10-15--10-16 erg cm-2s-1 in the energy range 0.5-2 keV. Cooling neutron stars are explored within a simpler model of local sources, including however interstellar absorption. They are found to be significantly less abundant at low fluxes, <0.1 sources per square degree, but dominate over accretors at higher flux levels (≈ 10-12--10-11 erg cm-2s-1). We suggest that the faint sources observed by ROSAT may be young cooling neutron stars with typical age 106 yrs, if the total number of young neutron stars in the Solar proximity is 10 times higher than inferred from radiopulsars statistics.
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