Black-Hole Accretion Disks --- Towards a New Paradigm ---

Details Black-Hole Accretion Disks --- Towards a New Paradigm --- Black-Hole Accretion Disks --- Towards a New Paradigm ---

Mar 2008

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2008bhad.book.....k&link_type=abstract

Black-Hole Accretion Disks --- Towards a New Paradigm ---, 549 pages, including 12 Chapters, 9 Appendices, ISBN 978-4-87698-740

Computer Science

Sound

77

Scientific paper

Part I: Concepts of Accretion Disks: Chap. 1: Introduction, 1.1 Accretion Energy - Historical Origin, { Accretion-Disk Paradigm - Active Universe, 1.3 Accretion-Powered Objects - Observational Reviews, 1.4 X-Ray Binaries and Ultra-Luminous X-Ray Sources, 1.5 Active Galactic Nuclei, 1.6 Present Paradigm,
Chap. 2: Physical Processes Related to Accretion, 2.1 Eddington Luminosity, 2.2 Bondi Accretion, 2.3 Viscous Process, 2.4 Magnetic Instabilities, 2.5 Relativistic Effects
Part II: Classical Picture: Chap. 3: Classical Models, 3.1 Viscous Accretion Disks, 3.2 Standard Disks, 3.3 Optically Thin Disks, 3.4 Accretion Disk Coronae, 3.5 Relativistic Standard Disks, 3.6 Relativistic Tori
Chap. 4: Secular and Thermal Instabilities, 4.1 Secular Instability, 4.2 Thermal Instability, 4.3 Stability Examination on dot{M}-Σ and T-Σ Planes, 4.4 Mathematical Derivation of the Stability Criterion,
Chap. 5: Dwarf-Nova Type Instability, 5.1 Thermal-Ionization Instability, 5.2 Time Evolution of Disks in X-Ray Novae
Chap. 6: Observability of Relativistic Effects, 6.1 Ray Tracing, 6.2 Imaging - Black Hole Silhouette, 6.3 Spectroscopy - Continuum and Line, 6.4 Photometry - Light Curve Diagnosis, 6.5 Other Effects - Lensing and Jets,
Part III: Modern Picture: Chap. 7: Equations to Construct Generalized Models, 7.1 Basic Equations and Importance of Advection, 7.2 One-Temperature Disks, 7.3 Two-Temperature Disks, 7.4 Time-Dependent Equations
Chap. 8: Transonic Nature of Accretion Flows, 8.1 Topology of Black-Hole Accretion, 8.2 Regularity Condition at a Critical Radius, 8.3 Topology around the Critical Radius in Isothermal Disks, 8.4 Numerical Examples of Transonic Flows, 8.5 Transonic Flows with Standing Shocks
Chap. 9: Radiatively Inefficient Accretion Flows, 9.1 Advection-Dominated Accretion Flow, 9.2 Radial Structure of Advection-Dominated Flow, 9.3 Radiation Spectra of Advection-Dominated Flow, 9.4 Stability of Advection-Dominated Flow, 9.5 Multi-Dimensional Effects,
Chap. 10: Slim Accretion Disks and Supercritical Accretion Flows, 10.1 Photon Trapping and Slim Disk Model, 10.2 Radial Structure of of Slim Disks, 10.3 Radiation Spectra of Slim Disks, 10.4 Relaxation Oscillations in Hot Accretion Disks, 10.5 Multi-Dimensional Effects in Supercritical Flow, 10.6 Neutrino-Cooled Disks
Part IV: Disk Oscillations and Waves Chap. 11: Fundamentals of Disk Oscillations, 11.1 Classification of Disk Oscillations, 11.2 Basic Equations, 11.3 Dispersion Relation and Basic Properties, 11.3 One-Armed Low-Frequency Global Oscillations, 11.4 Amplification of Disk Oscillation by Viscosity
Chap. 12: Quasi-Periodic Oscillations, 12.1 Observations of Quasi-Periodic Oscillations, 12.2 Sonic-Point Instability and Trapped Oscillations, 12.3 Resonant Oscillations in Warped Disks, 12.4 Comparison of Warped Models with Observations, 12.5 Other Disk-Oscillation Models of QPOs
Appendix: A Kerr Metric and its Basic Properties, A.1 Basic Properties, A.2 Circular Motion in Kerr Space-Time
Appendix: B Navier-Stokes Equations, B.1 General Form, B.2 Cylindrical Coordinate Expression
Appendix: C Equations for Relativistic Viscous Fluid, C.1 Metric and Energy-Momentum Tensor, C.2 General Form
Appendix: D Radiative Transfer Equations, D.1 Radiation Fields, D.2 Equations of Radiative Transfer, D.3 Optically Thick to Thin Regimes, D.4 Matter Coupling, D.5 Plane-Paralell Expression
Appendix: E Equations for Relativistic Radiation Hydrodynamics, E.1 Metric and Energy-Momentum Tensor, E.2 Equations for Radiative Transfer, E.3 Relativistic Regimes, E.4 Matter Coupling, E.5 Plane-Parallel Expression
Appendix: F Magnetohydrodynamical Equations, F.1 Maxwell Equations and MHD Approximations, F.2 MHD Equations, F.3 Cylindrical Coordinate Expression
Appendix: G Equations for Relativistic Magnetohydrodynmics, G.1 Metric and Energy Momentum Tensor, G.2 Relativistic Maxwell Equations, G.3 Relativistic MHD Equations
Appendix: H Relativistic Equation of State, H.1 Equation of State, H.2 Adiabatic Sound Speed and Effective Adiabatic Index
Appendix: I Cooling of Relativistic Gas, I.1 Bremsstrahlung Cooling, I.2 Synchrotron Cooling, I.3 Comptonization

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