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Cosmic Gamma-Ray Sources

  • Book
  • © 2004

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Editors:
  1. K. S. Cheng

    1. University of Hongkong, China

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  2. Gustavo E. Romero

    1. Instituto Argentino de Radioastronomía — CONICET, Villa Elisa, Argentina

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    You can also search for this editor in PubMed   Google Scholar

Part of the book series: Astrophysics and Space Science Library (ASSL, volume 304)

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Table of contents (15 chapters)

  1. Front Matter

    Pages i-xii
    Download chapter PDF

  2. Introduction

    • K. S. Cheng, Gustavo E. Romero
    Pages 1-20

  3. Fundamentals of Gamma-Ray Astrophysics

    • Gustavo E. Romero, K. S. Cheng
    Pages 21-46

  4. Galactic Gamma-Ray Sources

    • Isabelle A. Grenier
    Pages 47-67

  5. Extragalactic Gamma-Ray Sources

    • Diego F. Torres
    Pages 69-103

  6. Non-Thermal Emission from Early-Type Binaries

    • Gregor Rauw
    Pages 105-125

  7. Gamma-Ray Emission from Supernova Remnants

    • Gustavo E. Romero
    Pages 127-147

  8. Gamma Ray Pulsars

    • David J. Thompson
    Pages 149-168

  9. Theories of Gamma-Ray Emission from Pulsars

    • K. S. Cheng
    Pages 169-203

  10. High Energy Emission from Microquasars

    • Rob Fender, Tom Maccarone
    Pages 205-223

  11. Gamma-Ray Bursts

    • T. Lu, Y. F. Huang, Z. G. Dai, D. M. Wei
    Pages 225-260

  12. Clusters of Galaxies at High Energy Gamma-Rays

    • Olaf Reimer
    Pages 261-278

  13. Diffuse Gamma Rays

    • Igor V. Moskalenko, Andrew W. Strong, Olaf Reimer
    Pages 279-310

  14. Multifrequency Strategies for the Identification of Gamma-Ray Sources

    • Reshmi Mukherjee, Jules Halpern
    Pages 311-344

  15. Future Ground-Based TeV Gamma-Ray Telescopes

    • Trevor C. Weekes
    Pages 345-359

  16. GLAST: Understanding the High Energy Gamma-Ray Sky

    • Julie E. McEnery, Igor V. Moskalenko, Jonathan F. Ormes
    Pages 361-395

  17. Back Matter

    Pages 397-408
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Keywords

About this book

Gamma-ray astronomy has undergone an enormous progress in the last 15 years. The success of satellite experiments like NASA's Comp­ ton Gamma-Ray Observatory and ESA's INTEGRAL mission, as well as of ground-based instruments have open new views into the high-energy Universe. Different classes of cosmic gamma-ray sources have been now detected at different energies, in addition to young radio pulsars and gamma-ray bursts, the classical ones. The new sources include radio­ quiet pulsars, microquasars, supernova remnants, starburst galaxies, ra­ dio galaxies, flat-spectrum radio quasars, and BL Lacertae objects. A large number of unidentified sources strongly suggests that this brief enumeration is far from complete. Gamma-ray bursts are now estab­ lished as extragalactic sources with tremendous energy output. There is accumulating evidence supporting the idea that massive stars and star forming regions can accelerate charged particles up to relativistic ener­ gies making them gamma-ray sources. Gamma-ray astronomy has also proved to be a powerful tool for cosmology imposing constraints to the background photon fields that can absorb the gamma-ray flux from dis­ tant sources. All this has profound implications for our current ideas about how particles are accelerated and transported in both the local and distant U niverse. The evolution of our knowledge on the gamma-ray sky has been so fast that is not easy for the non-specialist scientist and the graduate student to be aware of the full potential of this field or to grasp the fundamentals of a given topic in order to attempt some original contribution.

Editors and Affiliations

  • University of Hongkong, China

    K. S. Cheng

  • Instituto Argentino de Radioastronomía — CONICET, Villa Elisa, Argentina

    Gustavo E. Romero

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