The Shadow Wind in High-Mass X-Ray Binaries (original) (raw)
ADS
Abstract
We present hydrodynamic simulations of the most X-ray luminous high-mass X-ray binary systems, such as Cen X-3 and SMC X-1. These models illustrate the presence of both a normal radiatively driven wind confined to the X-ray shadow of the primary star -- a shadow wind -- and a thermally driven wind excited by the X-ray heating of the primary's stellar surface -- an X-ray-excited wind. The X-ray flux in these systems is sufficiently intense that any circumstellar gas exposed to the X-ray source will be highly photoionized. These extreme ionization conditions prevent the formation of a normal radiatively driven wind from the irradiated surface of the primary, but such a wind can still form on the shadowed side of the primary. Orbital rotation can then bring this shadow wind into the line of sight toward the X-ray source, enhancing the column density of the wind seen near eclipse egress. Furthermore, such a high X-ray flux can also excite a thermal wind from the irradiated surface of the primary. Again, orbital rotation tends to deflect the wind, this time leading to an enhanced column density near eclipse ingress.
Publication:
The Astrophysical Journal
Pub Date:
November 1994
DOI:
Bibcode:
Keywords:
- Accretion Disks;
- Computerized Simulation;
- Deposition;
- Hydrodynamics;
- Stellar Winds;
- X Ray Binaries;
- X Ray Sources;
- Luminosity;
- Photoionization;
- X Ray Astronomy;
- Astrophysics;
- ACCRETION;
- ACCRETION DISKS;
- HYDRODYNAMICS;
- STARS: MASS LOSS;
- X-RAYS: STARS