A Potential Cyclotron Line Signature in Low Luminosity X-Ray Sources
Abstract
Estimates indicate there may be 103 low luminosity X-ray pulsars (L 1034 erg\;s-1) in the Galaxy undergoing ``low-state'' wind accretion in Be/X-ray binary systems, and 108-109 isolated neutron stars which may be accreting directly from the interstellar medium. Despite their low effective temperatures (kTe 300 eV), low luminosity accreting neutron stars with magnetic fields B (0.7-7) × 1012 G could emit a substantial fraction (0.5 - 5\%) of their total luminosity in a moderately broadened (E/ E 2-4) cyclotron emission line which peaks in the energy range 5-20keV. The bulk of the thermal emission from these stars will be in the extreme ultraviolet/soft X-ray regime, which is subject to strong interstellar absorption and would be difficult to distinguish from spectra of other types of objects. In sharp contrast, the nonthermal cyclotron component predicted here will not be strongly absorbed, and consequently it may be the only distinguishing signature for the bulk of these low luminosity sources. We propose a search for this cyclotron emission feature in long pointed observations of the newly discovered candidate isolated neutron star MS0317.7-6477, and the Be/X-ray transient
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