Astronomy and Astrophysics – Astrophysics
Scientific paper
2006-01-18
Astronomy and Astrophysics
Astrophysics
PhD thesis in astrophysics from MIT; submitted on the occasion of the first anniversary of my defense. 212 pp, 53 figs, 8 tabl
Scientific paper
This Thesis describes the basic framework and applications of a relativistic ray-tracing code for analyzing accretion processes around Kerr black holes. We begin in Chapter 1 with a brief historical summary of the major advances in black hole astrophysics over the past few decades. In Chapter 2 we present a detailed description of the ray-tracing code, which is used to calculate the transfer function between the accretion disk and the detector. In Chapter 3, we employ a simple ``hot spot'' model to explain the frequencies and amplitudes of quasi-periodic oscillations (QPOs). In Chapter 4, we introduce additional features to the hot spot model to explain the broadening of the QPO peaks as well as the damping of higher-frequency harmonics in the power spectrum. In Chapter 5 we present a description of the structure of a relativistic alpha-disk around a Kerr black hole, and the observed spectrum from such a disk. The features of this modified thermal spectrum may be used to infer the physical properties of the accretion disk and the central black hole. In Chapter 6 we develop a Monte Carlo code to calculate the detailed propagation of photons from a hot spot emitter scattering through a corona surrounding the black hole. The coronal scattering has two major observable effects: the inverse-Compton process alters the photon spectrum by adding a high energy power-law tail, and the random scattering of each photon effectively damps out the highest frequency modulations in the X-ray light curve.
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