Photonuclear interactions of ultrahigh energy cosmic rays and their astrophysical consequences.
Abstract
Results are presented for detailed Monte Carlo calculations of the interaction histories of ultrahigh-energy cosmic-ray nuclei with intergalactic radiation fields, using improved estimates of these fields and empirical determinations of photonuclear cross sections, including multinuclear disintegrations for nuclei up to Fe-56. Intergalactic and galactic energy-loss rates and nucleon-loss rates for nuclei up to Fe-56 are also given. Astrophysical implications are discussed in terms of expected features in the cosmic-ray spectrum between 10 to the 18th and 10 to the 21st power eV for the universal and supercluster origin hypotheses. The results of these calculations indicate that ultrahigh-energy cosmic rays cannot be universal in origin regardless of whether they are protons or nuclei. Both the supercluster and galactic origin hypotheses, however, are possible regardless of nuclear composition.
- Publication:
-
The Astrophysical Journal
- Pub Date:
- April 1976
- DOI:
- 10.1086/154321
- Bibcode:
- 1976ApJ...205..638P
- Keywords:
-
- Cosmic Rays;
- High Energy Interactions;
- Nuclear Reactions;
- Radiation Effects;
- Abundance;
- Energy Dissipation;
- Heavy Nuclei;
- Intergalactic Media;
- Nucleons;
- Pair Production;
- Particle Emission;
- Space Radiation