Ultra-High Energy Hadron and Neutrino Astrophysics
Autor Peter K. F. Grieder, Teresa Montarulien Limba Engleză Paperback – sep 2025
- Provides a historic review of the field, summarizing the evolution of all branches of astronomy
- Provides a broad introduction to ultra-high-energy cosmic rays and high-energy astrophysical neutrinos
- Covers the prerequisites for students in UHE neutrino and hadron astronomy, and astrophysics
- Includes numerous figures and graphs to support the text
- Features a list of over 1500 references and an extensive subject index
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Specificații
ISBN-13: 9780443240829
ISBN-10: 0443240825
Pagini: 400
Dimensiuni: 216 x 276 mm
Editura: ELSEVIER SCIENCE
ISBN-10: 0443240825
Pagini: 400
Dimensiuni: 216 x 276 mm
Editura: ELSEVIER SCIENCE
Cuprins
1. Motivation and Introduction
2. The Evolution of Astronomy: from Visual to Neutrino Astronomy
3. The Cosmic Radiation
4. Interactions Relevant for Cosmic Ray Propagation
5. Extensive Air Showers
6. Anisotropy and Time Variation of the Cosmic Radiation
7. Anisotropies at UH Energies, Point Sources and GZK Cutoff: Hadron Astronomy
8. Interpretation of Cosmic Ray Data and Phenomena
9. Propagation of Energetic Cosmic Rays in Space
10. Sources of Ultrahigh Energy Cosmic Rays
11. Muons and their Properties
12. Neutrinos and their Properties
13. Neutrino Production in Astrophysical Objects
14. Neutrino Detection Methods and Telescope Types
15. Ground, Balloon and Satellite Based Neutrino Telescopes
16. Deep-Water/Ice Optical Cherenkov Neutrino Telescopes
17. Radio Cherenkov Neutrino Telescopes
18. Acoustic Detection of High Energy Neutrinos in Liquids and Solids
19. Next Generation Telescopes
20. Neutrino Astronomy Results
21. Interpretation of Data and Conclusions
Appendixes
A. The Atmosphere
B. Galactic and Extragalactic Data Relevant for Cosmic Rays
C. Heliospheric Data and Relations
D. Miscellaneous Data: Figures
E. Mathematical Methods, Relations and Formulas
F. Complementary Relations, Data and Tables
G. List of Symbols
H. Abbreviations and Acronyms
2. The Evolution of Astronomy: from Visual to Neutrino Astronomy
3. The Cosmic Radiation
4. Interactions Relevant for Cosmic Ray Propagation
5. Extensive Air Showers
6. Anisotropy and Time Variation of the Cosmic Radiation
7. Anisotropies at UH Energies, Point Sources and GZK Cutoff: Hadron Astronomy
8. Interpretation of Cosmic Ray Data and Phenomena
9. Propagation of Energetic Cosmic Rays in Space
10. Sources of Ultrahigh Energy Cosmic Rays
11. Muons and their Properties
12. Neutrinos and their Properties
13. Neutrino Production in Astrophysical Objects
14. Neutrino Detection Methods and Telescope Types
15. Ground, Balloon and Satellite Based Neutrino Telescopes
16. Deep-Water/Ice Optical Cherenkov Neutrino Telescopes
17. Radio Cherenkov Neutrino Telescopes
18. Acoustic Detection of High Energy Neutrinos in Liquids and Solids
19. Next Generation Telescopes
20. Neutrino Astronomy Results
21. Interpretation of Data and Conclusions
Appendixes
A. The Atmosphere
B. Galactic and Extragalactic Data Relevant for Cosmic Rays
C. Heliospheric Data and Relations
D. Miscellaneous Data: Figures
E. Mathematical Methods, Relations and Formulas
F. Complementary Relations, Data and Tables
G. List of Symbols
H. Abbreviations and Acronyms