Book contents
- Frontmatter
- Contents
- Preface
- Acknowledgements
- Part I Astronomical background
- Part II Physical processes
- 5 Ionisation losses
- 6 Radiation of accelerated charged particles and bremsstrahlung of electrons
- 7 The dynamics of charged particles in magnetic fields
- 8 Synchrotron radiation
- 9 Interactions of high energy photons
- 10 Nuclear interactions
- 11 Aspects of plasma physics and magnetohydrodynamics
- Part III High energy astrophysics in our Galaxy
- Part IV Extragalactic high energy astrophysics
- Appendix: Astronomical conventions and nomenclature
- Bibliography
- Name index
- Object index
- Index
9 - Interactions of high energy photons
from Part II - Physical processes
Published online by Cambridge University Press: 05 June 2012
- Frontmatter
- Contents
- Preface
- Acknowledgements
- Part I Astronomical background
- Part II Physical processes
- 5 Ionisation losses
- 6 Radiation of accelerated charged particles and bremsstrahlung of electrons
- 7 The dynamics of charged particles in magnetic fields
- 8 Synchrotron radiation
- 9 Interactions of high energy photons
- 10 Nuclear interactions
- 11 Aspects of plasma physics and magnetohydrodynamics
- Part III High energy astrophysics in our Galaxy
- Part IV Extragalactic high energy astrophysics
- Appendix: Astronomical conventions and nomenclature
- Bibliography
- Name index
- Object index
- Index
Summary
The three main processes involved in the interaction of high energy photons with atoms, nuclei and electrons are photoelectric absorption, Compton scattering and electron–positron pair production. These processes are important not only in the study of high energy astrophysical phenomena in a wide variety of different circumstances but also in the detection of high energy particles and photons. For example, photoelectric absorption is observed in the spectra of most X-ray sources at energies ε ≲ 1 keV. Thomson and Compton scattering appear in a myriad of guises from the processes occurring in stellar interiors, to the spectra of binary X-ray sources, and inverse Compton scattering figures prominently in sources in which there are intense radiation fields and high energy electrons. Pair production is bound to occur wherever there are significant fluxes of high energy γ-rays – evidence for the production of positrons by this process is provided by the detection of the 511 keV electron–positron annihilation line in our own Galaxy.
Photoelectric absorption
At low photon energies, ħω « mec2, the dominant process by which photons interact with matter is photoelectric, or bound–free, absorption and is one of the principal sources of opacity in stellar interiors. We are principally interested here in the process in somewhat more rarefied plasmas.
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- Chapter
- Information
- High Energy Astrophysics , pp. 228 - 278Publisher: Cambridge University PressPrint publication year: 2011