Determining the Properties of Accretion-Gap Neutron Stars
Abstract
If neutron stars have radii as small as has been argued by some, observations of accretion-powered X-rays could verify the existence of innermost stable circular orbits (predicted by general relativity) around weakly magnetized neutron stars. This may be done by detecting X-ray emission from clumps of matter before and after they cross the gap (where matter cannot be supported by rotation) between the inner accretion disk and the stellar surface. Assuming the validity of general relativity, it would then be possible to determine the masses of such neutron stars independently of any knowledge of binary orbital parameters. If an accurate mass determination were already available through any of the methods conventionally used, the new mass determination method proposed here could then be used to quantitatively test strong field effects of gravitational theory.
- Publication:
-
The Astrophysical Journal
- Pub Date:
- August 1990
- DOI:
- 10.1086/169006
- Bibcode:
- 1990ApJ...358..538K
- Keywords:
-
- Circular Orbits;
- Cosmic X Rays;
- Neutron Stars;
- Stellar Mass Accretion;
- Stellar Orbits;
- Equations Of State;
- Gravitation Theory;
- Relativistic Effects;
- Relativity;
- X Ray Binaries;
- Astrophysics;
- GRAVITATION;
- RELATIVITY;
- STARS: ACCRETION;
- STARS: NEUTRON;
- STARS: X-RAYS