Add to ORKGTurbulent Comptonization, a potentially important damping and radiation mechanism in relativistic accretion flows, is discussed. Particular emphasis is placed on the physical basis, relative importance, and thermodynamics of turbulent Comptonization. The effects of metal-absorption opacity on the spectral component resulting from turbulent Comptonization is considered as well
We present a model of optically thin, two-temperature accretion flows using an exact Monte Carlo tre...
We describe Hybrid Evaluator for Radiative Objects Including Comptonization (HEROIC), an upgraded ve...
We present a model of accretion disk where the disk luminosity is entirely due to the reprocessing o...
Radiation pressure dominated accretion discs may have turbulent velocities that exceed the electron ...
In the inner-most regions of radiation pressure supported accretion disks, the turbulent magnetic pr...
We introduce a new method for treating Comptonization in computational fluid dynamics. By constructi...
MHD turbulence is generally believed to have two important functions in accretion disks: it transpor...
We investigate the role of Compton heating in radiation-regulated accretion on to black holes from a...
We have obtained new solutions and methods for the process of thermal. Comptonization, We modify the...
A large fraction of accreting black hole and neutron star systems present clear evidence of the repr...
Radiative transfer in spherical, supercritical accretion on to a massive black hole is considered. P...
We investigate thermal synchrotron radiation at semi-relativistic and relativistic temperatures. We ...
The equations describing Compton scattering in an optically thick fluid flow are derived under the d...
This thesis contains a thorough investigation of the transfer of radiation in spherically symmetric ...
This thesis contains a thorough investigation of the transfer of radiation in spherically symmetric ...
We present a model of optically thin, two-temperature accretion flows using an exact Monte Carlo tre...
We describe Hybrid Evaluator for Radiative Objects Including Comptonization (HEROIC), an upgraded ve...
We present a model of accretion disk where the disk luminosity is entirely due to the reprocessing o...
Radiation pressure dominated accretion discs may have turbulent velocities that exceed the electron ...
In the inner-most regions of radiation pressure supported accretion disks, the turbulent magnetic pr...
We introduce a new method for treating Comptonization in computational fluid dynamics. By constructi...
MHD turbulence is generally believed to have two important functions in accretion disks: it transpor...
We investigate the role of Compton heating in radiation-regulated accretion on to black holes from a...
We have obtained new solutions and methods for the process of thermal. Comptonization, We modify the...
A large fraction of accreting black hole and neutron star systems present clear evidence of the repr...
Radiative transfer in spherical, supercritical accretion on to a massive black hole is considered. P...
We investigate thermal synchrotron radiation at semi-relativistic and relativistic temperatures. We ...
The equations describing Compton scattering in an optically thick fluid flow are derived under the d...
This thesis contains a thorough investigation of the transfer of radiation in spherically symmetric ...
This thesis contains a thorough investigation of the transfer of radiation in spherically symmetric ...
We present a model of optically thin, two-temperature accretion flows using an exact Monte Carlo tre...
We describe Hybrid Evaluator for Radiative Objects Including Comptonization (HEROIC), an upgraded ve...
We present a model of accretion disk where the disk luminosity is entirely due to the reprocessing o...