Verfügbarkeit: Foundations of high-energy astrophysics

Foundations of high-energy astrophysics:

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1. Verfasser:	Vietri, Mario (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Chicago [u.a.] Univ. of Chicago Press 2008
Schriftenreihe:	Theoretical astrophysics
Schlagworte:	Astrophysics > Textbooks Infrared astronomy > Textbooks X-ray astronomy > Textbooks Gamma ray astronomy > Textbooks Particles (Nuclear physics) > Textbooks Hochenergieastronomie Hochenergiephysik Astrophysik
Online-Zugang:	Contributor biographical information Publisher description Inhaltsverzeichnis
Beschreibung:	XVII, 554 S. graph. Darst.
ISBN:	9780226855691 0226855694

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Datensatz im Suchindex

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adam_text	Contents Preface xv 1 Hydrodynamics 1 1.1 The Mass Conservation Equation ....... 2 1.2 The Momentum Conservation Equation ... 3 1.3 The Energy Conservation Equation ...... 5 1.4 Bernoulli s Theorem .............. 7 1.5 The Equations of Hydrodynamics in Conservative Form ............... 8 1.6 Viscous Fluids ................. 11 1.7 Small Perturbations .............. 15 1.8 Discontinuity .................. 18 1.8.1 Surfaces of Discontinuity ....... 19 1.8.2 ShockWaves .............. 22 1.8.3 Physical Interpretation of Shock Waves .................. 23 1.8.4 Collisional and Noncollisional Shocks .................. 25 1.8.5 Formation of a Shock ......... 26 1.9 Self-similar Solutions .............. 28 1.9.1 Self-similar Solutions of the Second Kind ................... 33 1.10 Relativistic Hydrodynamics .......... 38 1.10.1 Shock Waves in Relativistic Hydrodynamics ............. 41 vii viii CONTENTS 1.10.2 The Strong Explosion ......... 43 1.11 The De Laval Nozzle .............. 47 1.12 Problems .................... 53 2 Magnetohydrodynamics and Magnetic Fields 55 2.1 Equations of Motion .............. 56 2.1.1 The Limit of Ideal Magnetohydrodynamics ........ 60 2.1.2 Equations of Motion in a Conservative Form ................... 62 2.2 The Force Exerted by the Magnetic Field . . 64 2.3 Magnetic Flux Freezing ............ 66 2.4 Small Perturbations in a Homogeneous Medium ..................... 70 2.5 Stability of Tangential Discontinuities .... 77 2.6 Two-Temperature Fluids ............ 81 2.7 Magnetic Buoyancy and Reconnection .... 84 2.7.1 Magnetic Buoyancy .......... 84 2.7.2 Reconnection .............. 88 2.8 ShockWaves .................. 92 2.9 Magnetic Fields in Astrophysics ........ 95 2.9.1 Observations .............. 95 2.9.2 Origin of Magnetic Fields ....... 101 2.10 Problems .................... 113 3 Radiative Processes 115 3.1 Radiative Transport .............. 115 3.1.1 Radiation Transport .......... 120 3.2 Low-Temperature Thermal Emission ..... 124 3.3 Bremsstrahlung................. 128 3.4 Synchrotron ................... 131 3.4.1 Power Radiated by a Single Particle . 131 3.4.2 The Spectrum of a Single Particle . . 134 CONTENTS ix 3.4.3 The Spectrum of a Group of Nonthermal Particles .......... 138 3.4.4 Quantum Corrections ......... 140 3.4.5 Self-absorption ............. 142 3.4.6 Cyclotron Lines ............. 144 3.4.7 Processes in an Intense Magnetic Field ................... 146 3.4.8 The Razin-Tsytovich Effect ...... 148 3.5 Compton Processes ............... 150 3.5.1 Physical Mechanism of the Inverse Compton ................ 152 3.5.2 The Spectrum of Inverse Compton Processes ................ 157 3.5.3 About the Compton Parameter .... 167 3.5.4 Self-synchro-Compton and Compton Limit .................. 168 3.5.5 Compton Broadening ......... 171 3.6 Relativistic Effects ............... 172 3.6.1 Superluminal Motions ......... 173 3.6.2 Emission Properties of Relativistic Sources ................. 174 3.7 Pair Creation and Annihilation ........ 177 3.8 Cosmological Attenuations ........... 181 3.8.1 Protons ................. 181 3.8.2 Photons ................. 186 3.9 Problems .................... 188 4 Nonthermal Particles 191 4.1 The Classic Theory of Acceleration ...... 192 4.1.1 Acceleration ............... 193 4.1.2 Injection ................. 206 4.2 Constraints on the Maximum Energy ...................... 208 CONTENTS 4.3 More Details in the Newtonian Limit....................... 213 4.3.1 Prom the Vlasov Equation to the Convection-Scattering Equation .... 215 4.3.2 Scattering in the Angle of Motion in a Medium at Rest ............ 217 4.3.3 Scattering and Convection in a Medium in Motion ........... 219 4.4 General Discussion ............... 226 4.4.1 An Equation for ƒ........... 227 4.4.2 The Small Pitch Angle Scattering Limit .................. 232 4.4.3 Distributions of Probability Pu and Pd 238 4.4.4 The Particles Spectrum ........ 241 4.4.5 The Equations for Pu and Pd ..... 243 4.4.6 Results ................. 247 4.5 The Unipolar Inductor ............. 250 4.6 Problems .................... 254 Spherical Flows: Accretion and Explosion 255 5.1 Accretion from Cold Matter .......... 256 5.2 Accretion from Hot Matter .......... 260 5.2.1 The Critical Point ........... 265 5.3 The Intermediate Case ............. 267 5.4 Doubts about the Bondi Accretion Rate . . . 268 5.5 The Eddington Luminosity .......... 270 5.6 The Efficiency of Spherical Accretion ..... 275 5.7 Explosive Motions ............... 277 5.7.1 Supernovae............... 278 5.7.2 Gamma Ray Bursts .......... 286 5.8 Problems .................... 300 Disk Accretion I 303 6.1 Qualitative Introduction ............ 305 6.2 Fundamental Equations ............ 307 CONTENTS xi 6.3 Special Relations................ 310 6.4 The α Prescription ............... 315 6.5 Equations for the Structure of Disks ..... 318 6.6 The Standard Solution ............. 322 6.7 The Origin of Torque .............. 326 6.8 Disk Stability .................. 331 6.8.1 Time Scales ............... 331 6.8.2 Instability ................ 332 6.9 Lense-Thirring Precession ........... 337 6.10 Problems .................... 345 7 Disk Accretion II 347 7.1 Other Disk Models ............... 347 7.1.1 The Origin of Particles ......... 349 7.1.2 Dynamic Peculiarities of Pair Plasmas ................. 351 7.1.3 The Pair Plasma without Input of External Photons ............ 352 7.1.4 The Pair Plasma with Input of External Photons ............ 362 7.2 Thick Accretion Disks ............. 366 7.2.1 Some General Properties ....... 368 7.2.2 The Inapplicability of the Eddington Limit ............ 371 7.2.3 Polytropic Models ........... 374 7.2.4 Properties of Thick Disks ....... 376 7.3 Nondissipative Accretion Flows ........ 379 7.4 Further Developments of the Theory ..... 386 7.4.1 General-Relativistic Corrections . . . 387 7.4.2 The Fate of Angular Momentum at Large Radii ............... 387 7.5 Accretion Disks on Magnetized Objects ..................... 393 7.5.1 The Alfvén Radius ........... 394 xii CONTENTS 7.5.2 Interaction between the Disk and the Magnetosphere ........... 401 7.5.3 Accretion Columns ........... 403 7.6 Boundary Layers ................ 414 7.7 Problems .................... 417 8 Electrodynamics of Compact Objects 419 8.1 The Gold-Pacini Mechanism .......... 420 8.2 The Magnetospheres Surrounding Pulsars . . 422 8.2.1 Quasi-Neutral or Charge-Separated Plasma? ................. 427 8.2.2 The Goldreich and Julian Magnetosphere ............. 429 8.2.3 The Pulsar Equation .......... 432 8.2.4 The Solution .............. 443 8.2.5 The Transport of Angular Momentum 444 8.2.6 Discussion ................ 448 8.3 The Blandford-Znajek Model ......... 450 8.3.1 The Magnetic Field of a Black Hole . 450 8.3.2 The Black Hole Equation ....... 456 8.3.3 The Transport of Energy and of Angular Momentum .......... 470 8.3.4 A Qualitative Discussion ........ 473 8.3.5 A Simplified Discussion of Total Energetics ................ 475 8.4 The Generation of Charges .......... 479 8.5 Disk-Jet Coupling ............... 482 8.5.1 The Lovelace-Blandford Model .... 484 8.5.2 A Special Solution ........... 485 8.5.3 Discussion ................ 490 8.5.4 A Model Including Inertia! Effects . . 494 8.5.5 A Special Solution ........... 500 8.5.6 Results ................. 503 8.5.7 A Brief Summary ............ 508 8.6 Problems .................... 510 CONTENTS xiii Appendix A Propagation of Electromagnetic Waves 513 В Orbits Around Black Holes 519 B.I Problem ..................... 527 С Useful Formulae 529 C.I Vector Identities ................ 529 C.2 Cylindrical Coordinates ............ 529 C.3 Spherical Coordinates ............. 530 Bibliography 533 Index 543
adam_txt	Contents Preface xv 1 Hydrodynamics 1 1.1 The Mass Conservation Equation . 2 1.2 The Momentum Conservation Equation . 3 1.3 The Energy Conservation Equation . 5 1.4 Bernoulli's Theorem . 7 1.5 The Equations of Hydrodynamics in Conservative Form . 8 1.6 Viscous Fluids . 11 1.7 Small Perturbations . 15 1.8 Discontinuity . 18 1.8.1 Surfaces of Discontinuity . 19 1.8.2 ShockWaves . 22 1.8.3 Physical Interpretation of Shock Waves . 23 1.8.4 Collisional and Noncollisional Shocks . 25 1.8.5 Formation of a Shock . 26 1.9 Self-similar Solutions . 28 1.9.1 Self-similar Solutions of the Second Kind . 33 1.10 Relativistic Hydrodynamics . 38 1.10.1 Shock Waves in Relativistic Hydrodynamics . 41 vii viii CONTENTS 1.10.2 The Strong Explosion . 43 1.11 The De Laval Nozzle . 47 1.12 Problems . 53 2 Magnetohydrodynamics and Magnetic Fields 55 2.1 Equations of Motion . 56 2.1.1 The Limit of Ideal Magnetohydrodynamics . 60 2.1.2 Equations of Motion in a Conservative Form . 62 2.2 The Force Exerted by the Magnetic Field . . 64 2.3 Magnetic Flux Freezing . 66 2.4 Small Perturbations in a Homogeneous Medium . 70 2.5 Stability of Tangential Discontinuities . 77 2.6 Two-Temperature Fluids . 81 2.7 Magnetic Buoyancy and Reconnection . 84 2.7.1 Magnetic Buoyancy . 84 2.7.2 Reconnection . 88 2.8 ShockWaves . 92 2.9 Magnetic Fields in Astrophysics . 95 2.9.1 Observations . 95 2.9.2 Origin of Magnetic Fields . 101 2.10 Problems . 113 3 Radiative Processes 115 3.1 Radiative Transport . 115 3.1.1 Radiation Transport . 120 3.2 Low-Temperature Thermal Emission . 124 3.3 Bremsstrahlung. 128 3.4 Synchrotron . 131 3.4.1 Power Radiated by a Single Particle . 131 3.4.2 The Spectrum of a Single Particle . . 134 CONTENTS ix 3.4.3 The Spectrum of a Group of Nonthermal Particles . 138 3.4.4 Quantum Corrections . 140 3.4.5 Self-absorption . 142 3.4.6 Cyclotron Lines . 144 3.4.7 Processes in an Intense Magnetic Field . 146 3.4.8 The Razin-Tsytovich Effect . 148 3.5 Compton Processes . 150 3.5.1 Physical Mechanism of the Inverse Compton . 152 3.5.2 The Spectrum of Inverse Compton Processes . 157 3.5.3 About the Compton Parameter . 167 3.5.4 Self-synchro-Compton and Compton Limit . 168 3.5.5 Compton Broadening . 171 3.6 Relativistic Effects . 172 3.6.1 Superluminal Motions . 173 3.6.2 Emission Properties of Relativistic Sources . 174 3.7 Pair Creation and Annihilation . 177 3.8 Cosmological Attenuations . 181 3.8.1 Protons . 181 3.8.2 Photons . 186 3.9 Problems . 188 4 Nonthermal Particles 191 4.1 The Classic Theory of Acceleration . 192 4.1.1 Acceleration . 193 4.1.2 Injection . 206 4.2 Constraints on the Maximum Energy . 208 CONTENTS 4.3 More Details in the Newtonian Limit. 213 4.3.1 Prom the Vlasov Equation to the Convection-Scattering Equation . 215 4.3.2 Scattering in the Angle of Motion in a Medium at Rest . 217 4.3.3 Scattering and Convection in a Medium in Motion . 219 4.4 General Discussion . 226 4.4.1 An Equation for ƒ. 227 4.4.2 The Small Pitch Angle Scattering Limit . 232 4.4.3 Distributions of Probability Pu and Pd 238 4.4.4 The Particles' Spectrum . 241 4.4.5 The Equations for Pu and Pd . 243 4.4.6 Results . 247 4.5 The Unipolar Inductor . 250 4.6 Problems . 254 Spherical Flows: Accretion and Explosion 255 5.1 Accretion from Cold Matter . 256 5.2 Accretion from Hot Matter . 260 5.2.1 The Critical Point . 265 5.3 The Intermediate Case . 267 5.4 Doubts about the Bondi Accretion Rate . . . 268 5.5 The Eddington Luminosity . 270 5.6 The Efficiency of Spherical Accretion . 275 5.7 Explosive Motions . 277 5.7.1 Supernovae. 278 5.7.2 Gamma Ray Bursts . 286 5.8 Problems . 300 Disk Accretion I 303 6.1 Qualitative Introduction . 305 6.2 Fundamental Equations . 307 CONTENTS xi 6.3 Special Relations. 310 6.4 The α Prescription . 315 6.5 Equations for the Structure of Disks . 318 6.6 The Standard Solution . 322 6.7 The Origin of Torque . 326 6.8 Disk Stability . 331 6.8.1 Time Scales . 331 6.8.2 Instability . 332 6.9 Lense-Thirring Precession . 337 6.10 Problems . 345 7 Disk Accretion II 347 7.1 Other Disk Models . 347 7.1.1 The Origin of Particles . 349 7.1.2 Dynamic Peculiarities of Pair Plasmas . 351 7.1.3 The Pair Plasma without Input of External Photons . 352 7.1.4 The Pair Plasma with Input of External Photons . 362 7.2 Thick Accretion Disks . 366 7.2.1 Some General Properties . 368 7.2.2 The Inapplicability of the Eddington Limit . 371 7.2.3 Polytropic Models . 374 7.2.4 Properties of Thick Disks . 376 7.3 Nondissipative Accretion Flows . 379 7.4 Further Developments of the Theory . 386 7.4.1 General-Relativistic Corrections . . . 387 7.4.2 The Fate of Angular Momentum at Large Radii . 387 7.5 Accretion Disks on Magnetized Objects . 393 7.5.1 The Alfvén Radius . 394 xii CONTENTS 7.5.2 Interaction between the Disk and the Magnetosphere . 401 7.5.3 Accretion Columns . 403 7.6 Boundary Layers . 414 7.7 Problems . 417 8 Electrodynamics of Compact Objects 419 8.1 The Gold-Pacini Mechanism . 420 8.2 The Magnetospheres Surrounding Pulsars . . 422 8.2.1 Quasi-Neutral or Charge-Separated Plasma? . 427 8.2.2 The Goldreich and Julian Magnetosphere . 429 8.2.3 The Pulsar Equation . 432 8.2.4 The Solution . 443 8.2.5 The Transport of Angular Momentum 444 8.2.6 Discussion . 448 8.3 The Blandford-Znajek Model . 450 8.3.1 The Magnetic Field of a Black Hole . 450 8.3.2 The Black Hole Equation . 456 8.3.3 The Transport of Energy and of Angular Momentum . 470 8.3.4 A Qualitative Discussion . 473 8.3.5 A Simplified Discussion of Total Energetics . 475 8.4 The Generation of Charges . 479 8.5 Disk-Jet Coupling . 482 8.5.1 The Lovelace-Blandford Model . 484 8.5.2 A Special Solution . 485 8.5.3 Discussion . 490 8.5.4 A Model Including Inertia! Effects . . 494 8.5.5 A Special Solution . 500 8.5.6 Results . 503 8.5.7 A Brief Summary . 508 8.6 Problems . 510 CONTENTS xiii Appendix A Propagation of Electromagnetic Waves 513 В Orbits Around Black Holes 519 B.I Problem . 527 С Useful Formulae 529 C.I Vector Identities . 529 C.2 Cylindrical Coordinates . 529 C.3 Spherical Coordinates . 530 Bibliography 533 Index 543
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spelling	Vietri, Mario Verfasser aut Foundations of high-energy astrophysics Mario Vietri Chicago [u.a.] Univ. of Chicago Press 2008 XVII, 554 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Theoretical astrophysics Astrophysics Textbooks Infrared astronomy Textbooks X-ray astronomy Textbooks Gamma ray astronomy Textbooks Particles (Nuclear physics) Textbooks Hochenergieastronomie (DE-588)4279714-7 gnd rswk-swf Hochenergiephysik (DE-588)4127286-9 gnd rswk-swf Astrophysik (DE-588)4003326-0 gnd rswk-swf Hochenergieastronomie (DE-588)4279714-7 s DE-604 Astrophysik (DE-588)4003326-0 s Hochenergiephysik (DE-588)4127286-9 s 1\p DE-604 http://www.loc.gov/catdir/enhancements/fy0827/2007030145-b.html Contributor biographical information http://www.loc.gov/catdir/enhancements/fy0827/2007030145-d.html Publisher description Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016517288&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Vietri, Mario Foundations of high-energy astrophysics Astrophysics Textbooks Infrared astronomy Textbooks X-ray astronomy Textbooks Gamma ray astronomy Textbooks Particles (Nuclear physics) Textbooks Hochenergieastronomie (DE-588)4279714-7 gnd Hochenergiephysik (DE-588)4127286-9 gnd Astrophysik (DE-588)4003326-0 gnd
subject_GND	(DE-588)4279714-7 (DE-588)4127286-9 (DE-588)4003326-0
title	Foundations of high-energy astrophysics
title_auth	Foundations of high-energy astrophysics
title_exact_search	Foundations of high-energy astrophysics
title_exact_search_txtP	Foundations of high-energy astrophysics
title_full	Foundations of high-energy astrophysics Mario Vietri
title_fullStr	Foundations of high-energy astrophysics Mario Vietri
title_full_unstemmed	Foundations of high-energy astrophysics Mario Vietri
title_short	Foundations of high-energy astrophysics
title_sort	foundations of high energy astrophysics
topic	Astrophysics Textbooks Infrared astronomy Textbooks X-ray astronomy Textbooks Gamma ray astronomy Textbooks Particles (Nuclear physics) Textbooks Hochenergieastronomie (DE-588)4279714-7 gnd Hochenergiephysik (DE-588)4127286-9 gnd Astrophysik (DE-588)4003326-0 gnd
topic_facet	Astrophysics Textbooks Infrared astronomy Textbooks X-ray astronomy Textbooks Gamma ray astronomy Textbooks Particles (Nuclear physics) Textbooks Hochenergieastronomie Hochenergiephysik Astrophysik
url	http://www.loc.gov/catdir/enhancements/fy0827/2007030145-b.html http://www.loc.gov/catdir/enhancements/fy0827/2007030145-d.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016517288&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT vietrimario foundationsofhighenergyastrophysics

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