Verfügbarkeit: High energy radiation from black holes

High energy radiation from black holes: gamma rays, cosmic rays, and neutrinos

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Bibliographische Detailangaben
Hauptverfasser:	Dermer, Charles (VerfasserIn), Menon, Govind (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Princeton, N.J. [u.a.] Princeton Univ. Press 2009
Schriftenreihe:	Princeton series in astrophysics
Schlagworte:	Black holes (Astronomy) Cosmic rays Gamma ray astronomy Neutrinos Particles (Nuclear physics)
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XX, 538 S. graph. Darst.
ISBN:	9780691137957

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Datensatz im Suchindex

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adam_text	Titel: High energy radiation from black holes Autor: Dermer, Charles D. Jahr: 2009 Contents Preface xix Chapter 1. Introduction 1 1.1 Black Holes in Nature 1 1.2 Energy Fluxes 8 1.3 Timing Studies and Black-Hole Mass Estimates 10 1.4 Flux Distribution 11 1.5 The Nighttime Sky 12 Chapter 2. Relativistic Kinematics 14 2.1 Lorentz Transformation Equations 14 2.2 Four-Vectors and Momentum 16 2.3 Relativistic Doppler Factor 18 2.4 Three Useful Invariants 19 2.5 Relativistic Reaction Rate 21 2.6 Secondary Production Spectra 23 Chapter 3. Introduction to Curved Spacetime 25 3.1 Special Relativity 25 3.2 Curved Space/Spacetime 29 3.3 The Schwarzschild Metric 33 Chapter 4. Physical Cosmology 36 4.1 Robertson-Walker Metric 36 4.2 Friedmann Models 39 4.2.1 Hubble Relation from the Cosmological Principle 39 4.2.2 Expansion of the Universe 40 4.2.3 Einstein-de Sitter Universe 43 4.2.4 Universe with Zero Cosmological Constant 43 4.2.5 Flat Universe 43 4.3 Luminosity and Angular-Diameter Distances 44 4.4 Event Rate of Bursting Sources 45 4.5 Flux and Intensity from Distributed Sources 47 X CONTENTS Chapter 5. Radiation Physics of Relativistic Flows 50 5.1 Radiation Preliminaries 50 5.2 Invariant Quantities 53 5.3 Blackbody Radiation Field 53 5.4 Transformed Quantities 56 5.4.1 Transformation of Total Distribution and Energy 56 5.4.2 Transformation of Differential Distributions 56 5.5 Fluxes of Relativistic Cosmological Sources 59 5.5.1 Blob Geometry 60 5.5.2 Spherical Shell Geometry 63 5.5.3 Equivalence of Blob and Blast Wave Geometries 68 Chapter 6. Compton Scattering 70 6.1 Compton Effect 70 6.2 The Compton Cross Section 71 6.3 Transforming the Compton Cross Section 73 6.3.1 Differential Thomson Cross Section 75 6.3.2 Head-on Approximation 77 6.3.3 Differential Compton Cross Section 77 6.3.4 Moments of the Compton Cross Section 79 6.3.5 Compton Scattering in the 5-Function Approximation 80 6.4 Energy-Loss Rates in Compton Scattering 81 6.4.1 Thomson Energy-Loss Rate 81 6.4.2 Klein-Nishina Energy-Loss Rate 82 6.5 Differential Compton Cross Sections and Spectra 83 6.5.1 Comparison of Scattered Spectra for Different ERF Photon Energies 83 6.5.2 Spectral Comparisons for Isotropic Monochromatic Photons and Power-Law Electrons 84 6.6 Thomson Scattering: Isotropic Photons and Electrons 92 6.6.1 Thomson-Scattered Radiation Spectrum in the (5-Function Approximation 92 6.6.2 Spectral Comparisons for Isotropic Power-Law Photons and Electrons 93 6.7 External Photon Fields Compton-Scattered by Jet Electrons 94 6.7.1 Thomson-Scattered Spectrum for an External Point Source of Radiation from Behind 6.7.2 Thomson-Scattered Spectrum for External Isotropic Radiation in the 5-Function Approximation 97 6.7.3 External Isotropic Photons Compton-Scattered by Jet Electrons 6.7.4 Cosmic Microwave Background Radiation Compton-Scattered by Jet Electrons 96 99 103 CONTENTS XI 6.8 Accretion-Disk Field Compton-Scattered by Jet Electrons 105 6.8.1 Optically Thick Shakura-Sunyaev Disk Spectrum 106 6.8.2 Integrated Emission Spectrum from Shakura-Sunyaev Disk 107 6.8.3 Transformed Accretion-Disk Radiation Field 108 6.8.4 Thomson-Scattered Shakura-Sunyaev Disk Spectrum in the Near Field 112 6.8.5 Thomson-Scattered Shakura-Sunyaev Disk Spectrum in the Far Field 113 6.8.6 Beaming Patterns 113 6.9 Broad-Line Region Scattered Radiation 114 Chapter 7. Synchrotron Radiation 117 7.1 Covariant Electrodynamics 118 7.2 Synchrotron Power and Peak Frequency 119 7.3 Elementary Synchrotron Radiation Formulae 121 7.3.1 Relations between Emitted, Received, and 90~ Pitch-Angle Powers 123 7.3.2 Particle Synchrotron Radiation 126 7.3.3 Synchrotron Spectrum from a Power-Law Electron Distribution 127 7.4 $-Function Approximation for Synchrotron Radiation 129 7.5 Equipartition Magnetic Field 131 7.5.1 Equipartition Magnetic Field: Qualitative Estimate 132 7.5.2 Equipartition Magnetic Field: Quantitative Treatment 133 7.6 Energetics and Minimum Jet Powers 135 7.7 Synchrotron Self-Compton Radiation 138 7.7.1 SSC in the Thomson Regime 138 7.7.2 SSC in the Thomson Regime for Broken Power-Law Electron Distribution 140 7.7.3 Accurate SSC for General Electron Distribution 141 7.7.4 Synchrotron/SSC Model 142 7.7.5 SSC Electron Energy-Loss Rate 143 7.8 Synchrotron Self-Absorption 143 7.8.1 Einstein Coefficients 145 7.8.2 Brightness Temperature and Self-Absorbed Flux: Qualitative Discussion 146 7.8.3 Derivation of the Synchrotron Self-Absorption Coefficient 148 7.8.4 5-Function Approximation for Synchrotron Self-Absorption 148 7.8.5 Synchrotron Self-Absorption Coefficient for Power-Law Electrons 149 XJi CONTENTS 7.9 Maximum Brightness Temperature 150 7.10 Compton Limits on the Doppler Factor 153 7.11 Self-Absorbed Synchrotron Spectrum 154 7.12 Hyper-Relativistic Electrons 156 7.13 Jitter Radiation 158 Chapter 8. Binary Particle Collision Processes 160 8.1 Coulomb Energy Losses 161 8.1.1 Stopping Power of Cold Plasma 161 8.1.2 Thermal Relaxation 163 8.1.3 Stopping Power of Thermal Plasma 164 8.1.4 Knock-On Electrons 165 8.2 Bremsstrahlung 166 8.2.1 Electron Bremsstrahlung Energy-Loss Rate 167 8.2.2 Electron Bremsstrahlung Production Spectra 167 8.3 Secondary Nuclear Production 169 8.3.1 y Rays from tt° Decay 171 8.3.2 Cross Section forp + p - ? n + X Production 172 8.4 Electron-Positron Annihilation Radiation 180 8.4.1 Annihilation in a Thermal Medium 181 8.4.2 Thermal Annihilation Line and Continuum Spectra 182 8.5 Nuclear y-Ray Line Production 185 Chapter 9. Photohadronic Processes 187 9.1 Scattering and Energy-Loss Timescales 189 9.2 Photopion Process 190 9.2.1 Photopion Cross Section 191 9.2.2 Analytic Expression for Photopion Cross Section 192 9.2.3 Numerical Calculation of Photopion Cross Section 194 9.2.4 Photopion Energy-Loss Rate 194 9.2.5 GZK Energy 196 9.2.6 Stochastic and Continuous Energy Losses 197 9.3 Photopair Process 197 9.3.1 Photopair Cross Section 198 9.3.2 Photopair Energy-Loss Timescale 198 9.3.3 Accurate Expression for Photopair Energy-Loss Rates of Ions in an Isotropic Radiation Field 201 9.3.4 Relative Importance of Photopion and Photopair Losses 203 9.4 Expansion Losses 203 9.5 Cosmogenic Neutrino Flux 204 9.6 Ultrahigh-Energy Cosmic-Ray Evolution 208 9.6.1 Normalization to Local Luminosity Density 209 9.6.2 Energy Evolution of Cosmic-Ray Protons 210 9.6.3 Rate Density Evolution and the Star Formation Rate 211 CONTENTS XIII 9.7 Waxman-Bahcall Bound 213 9.8 UHECR and GZK Neutrino Intensities 215 9.9 Photonuclear Reactions 219 9.9.1 Photodisintegration Reaction Rate 222 9.9.2 Effective Photodisintegration Energy-Loss Rate 224 9.9.3 Neutrinos from Photodisintegration 225 Chapter 10. yy Pair Production 227 10.1 yy Pair Production Cross Section 228 10.1.1 Absorption by a Blackbody and a Modified Blackbody Photon Gas 231 10.1.2 Absorption by a Power-Law Photon Gas in a Relativistic Jet 233 10.1.3 yy Attenuation in Anisotropic Radiation Fields 235 10.2 ^-Function Approximation for aYY 236 10.3 Opacity of the Universe to yy Attenuation 237 10.3.1 yy Optical Depth of the Universe 238 10.3.2 Measurements of the EBL 240 10.3.3 y y Attenuation at Low Redshifts 241 10.3.4 yy Attenuation at All Redshifts 244 10.4 The y -Ray Horizon 244 10.5 Compactness Parameter 245 10.6 Minimum Doppler Factor from yy Constraint 247 10.7 Correlated y-Ray and Neutrino Fluxes 249 10.8 Electromagnetic Cascades 253 10.8.1 Cascades in Jets 254 10.8.2 Cascades in the Intergalactic Medium 256 10.9 yy -* v 257 Chapter 11. Blast-Wave Physics 258 11.1 Fireballs and Relativistic Blast Waves 258 11.1.1 Blast-Wave Deceleration 260 11.1.2 Blast-Wave Equation of Motion 261 11.1.3 Dissipated Internal Energy 270 11.2 Elementary Blast-Wave Theory 270 11.2.1 Characteristic Electron Energies 271 11.2.2 Characteristic Synchrotron Frequencies 274 11.2.3 Afterglow Theory 278 11.3 Relativistic Shock Hydrodynamics 282 11.3.1 Relativistic Shock Thermodynamics 282 11.3.2 Synchrotron Radiation from a Relativistic Reverse Shock 288 11.4 Beaming Breaks and Jets 290 11.5 Synchrotron Self-Compton Radiation 292 Xjv CONTENTS 11.6 Theory of the Prompt Phase 294 11.6.1 X-Ray Flares and y-Ray Pulses from External Shocks 295 11.6.2 Colliding Shells and Internal Shocks 301 11.7 Thermal Photospheres 303 11.7.1 The Amati and Ghirlanda Relations 303 11.7.2 Thermodynamics of a Steady Relativistic Wind 304 11.7.3 Photospheric Radius 306 11.7.4 Pair Photosphere 308 11.8 Thermal Neutrons 310 11.9 GRB Cosmology 312 Chapter 1 2. Introduction to Fermi Acceleration 314 12.1 Stochastic and Shock Fermi Acceleration 316 12.2 Wave Turbulence Spectrum 317 12.3 The Hillas Condition 320 12.4 Energy Gain per Cycle from Fermi Acceleration 321 12.5 Diffusion in Physical Space 322 12.6 Maximum Particle Energy 324 Chapter 1 3. First-Order Fermi Acceleration 327 13.1 Nonrelativistic Shock Hydrodynamics 328 13.2 Convection-Diffusion Equation 330 13.3 Nonrelativistic Shock Acceleration 332 13.3.1 Spectral Index from Convection-Diffusion Equation 332 13.3.2 Spectral Index from Probability Arguments 334 13.3.3 Finite Shell Width 335 13.3.4 Cosmic-Ray Pressure and Shock Width 337 13.3.5 Maximum Particle Energy in Nonrelativistic Shock Acceleration 339 13.3.6 Maximum Particle Energy in Nonrelativistic Shocks 343 13.3.7 Amplification of Upstream Medium Magnetic Field 344 13.4 Relativistic Shock Acceleration 346 13.4.1 Fokker-Planck Equation for a Stationary, Parallel Shock 347 13.4.2 Spectral Index in Relativistic Shock Acceleration 348 13.4.3 Maximum Particle Energies in Relativistic Shock Acceleration 349 Chapter 14. Second-Order Fermi Acceleration 351 14.1 Power-Law Particle Spectra from Second-Order Fermi Acceleration 353 14.2 The Resonance Condition 353 14.3 Plasma Waves 355 14.4 Diffusive Particle Acceleration 359 CONTENTS XV 14.5 Approximate Derivation of Diffusion Coefficients 362 14.5.1 Pitch-Angle Diffusion Coefficient 362 14.5.2 Momentum Diffusion Coefficient 363 14.6 Energy Gain and Diffusive Escape Rates 364 14.7 Momentum Diffusion Equation 367 14.7.1 Ramaty-Lee Spectrum for Hard-Sphere Scattering 368 14.7.2 Green s Function Solution 370 14.8 Maximum Particle Energy in Second-Order Fermi Acceleration 372 14.8.1 Gyroresonant Stochastic Acceleration 373 14.8.2 Stochastic Energization in Nonrelativistic Shocks 374 14.8.3 Stochastic Energization in Relativistic Flows 376 Chapter 1 5. The Geometry of Spacetime 379 15.1 Introduction 379 15.2 Splitting Spacetime Into Space and Time 380 15.3 The Kerr Metric 384 15.3.1 The Geodesic Equation and Its Integrability in Kerr Geometry 386 15.3.2 The Kerr Metric in Kerr-Schild Coordinates 391 15.3.3 The Ergosphere 394 15.3.4 The Event Horizon 396 15.4 The Penrose Process 397 15.5 Hawking Radiation 402 15.5.1 Scalar Fields in Curved Spacetime 402 15.5.2 The Quantum Field for a Scalar Particle in a Flat Spacetime 404 15.5.3 Particle Creation in Curved Spacetime 405 15.5.4 Particle Creation in Rindler Spacetime 408 15.5.5 Particle Creation in Schwarzschild Geometry 415 Chapter 1 6. Black-Hole Electrodynamics 417 16.1 3+1 Electrodynamics 417 16.2 The Energy-Momentum Tensor 424 16.3 The Blandford-Znajek Process 427 16.3.1 Explicit Expressions for the Fields and Currents 431 16.3.2 The Force-Free Constraint Equation 432 16.3.3 The Znajek Regularity Condition 433 16.3.4 Energy and Angular-Momentum Extraction from the Force-Free Magnetosphere 435 16.4 Geodesic Currents in the Magnetosphere 436 16.5 An Exact Solution 439 16.6 Fields and Energy Extraction for the Q- Solution 441 16.7 An Approximate Solution 442 16.8 Uniqueness of the fi_ Solution 447 xvj CONTENTS 16.9 Energy Extraction for the Q+ Solution 448 16.10 Blandford-Znajek Process in Astrophysical Sources 450 Chapter 1 7. High-Energy Radiations from Black Holes 452 17.1 y Rays 453 17.1.1 Modeling y Rays from Black Holes 454 17.1.2 Statistics of Black-Hole Sources 456 17.1.3 Blazar Physics 457 17.1.4 GRB Classes 458 17.1.5 Unresolved and Diffuse y-Ray Background 458 17.2 Cosmic Rays 459 17.2.1 Acceleration of Cosmic Rays at Supernova Remnant Shocks 461 17.2.2 Acceleration of UHECRs at Relativistic Blast Waves 462 17.2.3 Charged-Particle Astronomy 463 17.2.4 UHECR Propagation 466 17.2.5 UHECR Source Power Requirements 466 17.3 Neutrinos 468 17.4 Concluding Remarks 471 Appendix A: Essential Tensor Calculus 473 A. 1 Introduction 473 A.2 The Tangent Vector 473 A.3 Dual Vectors 476 A.4 The Space T {M) 477 A.5 Tensors 478 A.6 The Metric Tensor 480 A.7 The Volume Element and the Levi-Civita Tensor 481 A.8 The Covariant Derivative 483 A.9 The Divergence Theorem 485 A. 10 The Einstein Equation 486 Appendix B: Mathematical Functions 488 B. 1 The Gamma Function and Error Function 488 B.2 Modified Bessel Functions of the Second Kind 488 B.3 Exponential Integral Function 489 B.4 Planck s Function 490 B.5 Bernoulli Numbers and Riemann £ Function 490 B.6 Whittaker Functions 491 B.7 Lambert W Function 491 Appendix C: Solutions of the Continuity Equation 492 Appendix D: Basics of Monte Carlo Calculations 497 CONTENTS XVii Appendix E: Supplementary Information 499 Appendix F: Glossary and Acronym List 505 Bibliography 509 Index 531
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spelling	Dermer, Charles Verfasser (DE-588)128922001 aut High energy radiation from black holes gamma rays, cosmic rays, and neutrinos Charles D. Dermer, Govind Menon Princeton, N.J. [u.a.] Princeton Univ. Press 2009 XX, 538 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Princeton series in astrophysics Black holes (Astronomy) Cosmic rays Gamma ray astronomy Neutrinos Particles (Nuclear physics) Menon, Govind Verfasser (DE-588)122645073 aut HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018957866&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Dermer, Charles Menon, Govind High energy radiation from black holes gamma rays, cosmic rays, and neutrinos Black holes (Astronomy) Cosmic rays Gamma ray astronomy Neutrinos Particles (Nuclear physics)
title	High energy radiation from black holes gamma rays, cosmic rays, and neutrinos
title_auth	High energy radiation from black holes gamma rays, cosmic rays, and neutrinos
title_exact_search	High energy radiation from black holes gamma rays, cosmic rays, and neutrinos
title_full	High energy radiation from black holes gamma rays, cosmic rays, and neutrinos Charles D. Dermer, Govind Menon
title_fullStr	High energy radiation from black holes gamma rays, cosmic rays, and neutrinos Charles D. Dermer, Govind Menon
title_full_unstemmed	High energy radiation from black holes gamma rays, cosmic rays, and neutrinos Charles D. Dermer, Govind Menon
title_short	High energy radiation from black holes
title_sort	high energy radiation from black holes gamma rays cosmic rays and neutrinos
title_sub	gamma rays, cosmic rays, and neutrinos
topic	Black holes (Astronomy) Cosmic rays Gamma ray astronomy Neutrinos Particles (Nuclear physics)
topic_facet	Black holes (Astronomy) Cosmic rays Gamma ray astronomy Neutrinos Particles (Nuclear physics)
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018957866&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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