Magnetic Flares and State Transitions in Galactic Black Hole and Neutron Star Systems
نویسندگان
چکیده
We here examine the conditions of the two-phase disk model under which magnetic flares arise above the cold accretion disk due to magnetic buoyancy and produce Xrays via Comptonization of the disk’s soft radiation. We find that the disk’s ability to produce strong magnetic flares is substantially diminished in its radiation dominated regions due to the diffusion of radiation into the magnetic flux tubes. Using a simplified, yet physically self-consistent, model that takes this effect into account, we show that the hard X-ray spectrum of some GBHCs can be explained as the X-ray emission by magnetic flares only when the disk’s bolometric luminosity is a relatively small fraction (∼ 5%) of the Eddington value, LEdd. Further, we compute the hard (20−200 keV) and soft (1− 20 keV) X-ray power as a function of the disk’s luminosity, and find an excellent agreement with the available data for GBHC transient and persistent sources. We conclude that the observed high-energy spectrum of stellar-sized accretion disk systems can be explained by Comptonization of the disk’s soft radiation by the hot gas trapped inside the magnetic flares when the luminosity falls in the range ∼ 10 − 10 × LEdd. For higher luminosities, another emission mechanism must be at work. For lower luminosities, the X-ray emissivity may still be dominated by magnetic flares, but this process is more likely to be thermal or non-thermal bremstrahlung, so that the X-ray spectrum below ∼ 10LEdd may be quite distinct from the typical hard spectrum for higher luminosities. Subject headings: accretion, accretion disks — black hole physics — galaxies: Seyfert — magnetic fields — plasmas — radiative transfer Presidential Young Investigator.
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