Journal
ASTROPHYSICAL JOURNAL
Volume 533, Issue 2, Pages 710-728Publisher
IOP PUBLISHING LTD
DOI: 10.1086/308708
Keywords
accretion, accretion disks; galaxies : active; galaxies : nuclei
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We have constructed a grid of non-LTE disk models for a wide range of values of black hole mass and mass accretion rate, for several values of the viscosity parameter alpha, and for two extreme values of the black hole spin: the maximum-rotation Kerr black hole, and the Schwarzschild (nonrotating) black hole. Our procedure calculates self-consistently the vertical structure of all disk annuli together with the radiation field, without any approximations imposed on the optical thickness of the disk, and without any ad hoc approximations to the behavior of the radiation intensity. The total spectrum of a disk is computed by summing the spectra of the individual annuli, taking into account the general relativistic transfer function. The grid covers nine values of the black hole mass between M = 1/8 x 10(9) and 32 x 10(9) M. with a twofold increase of mass for each subsequent value; and eleven values of the mass accretion rate, each a power of 2 times 1 M.yr(-1). The highest value of the accretion rate corresponds to the total luminosity L/L-Edd approximate to 0.3. We show the vertical structure of individual annuli within the set of accretion disk models, along with their local emergent flux, and discuss the internal physical self-consistency of the models. We then present the full disk-integrated spectra and discuss a number of observationally interesting properties of the models, such as optical/ultraviolet colors, the behavior of the hydrogen Lyman limit region, polarization, and the number of ionizing photons. Our calculations are far from definitive in terms of the input physics, but generally we find that our models exhibit rather red optical/UV colors. Flux discontinuities in the region of the hydrogen Lyman limit are only present in cool, low-luminosity models, while hotter models exhibit blueshifted changes in spectral slope.
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