Ultra-High-Energy Gamma-Ray Astronomy
| Autor: | Cao, Zhen, Chen, Songzhan, Liu, Ruoyu, Yang, Ruizhi |
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| Rok vydání: | 2023 |
| Předmět: | |
| Zdroj: | Annual Review of Nuclear and Particle Science, Volume 73 (2023), page 341-363 |
| Druh dokumentu: | Working Paper |
| DOI: | 10.1146/annurev-nucl-112822-025357 |
| Popis: | Ultra-High Energy (UHE, $>$0.1\,PeV) $\gamma$-ray Astronomy is rapidly evolving into an expanding branch of the $\gamma$-ray astronomy with the surprising discovery of 12 PeVatrons and the detection of a handful of photons above 1 PeV. Nearly all known celestial object types that have emissions in the TeV band are found also emitting UHE photons. UHE $\gamma$-rays have a well-defined horizon inside our galaxy due to the absorption of infrared and cosmic microwave backgrounds in the universe. With the last 30 years, traditional cosmic ray (CR) detection techniques allow the detection of UHE $\gamma$-rays, and opened up the last observation window. For leptonic sources, UHE radiation is in the deep Klein-Nishina regime which is largely suppressed. Therefore UHE $\gamma$-ray detection will help to locate and identify hadronic radiation sources, tracing the historic pursuit for the origin of CRs around the knee of the spectrum. The Crab Nebula is again the focus of attention with measured photon emissions above 1\,PeV. In the absence of hadronic processes, this may indicate the existence of an extreme accelerator of e$^+$/e$^-$. Utilization of the CR extensive air shower detection techniques broadens the field of view of the source observations, enabling the measurement of UHE radiation surrounding the sources. These observations can probe the particle propagation inside and outside the accelerators and the subsequent injection/escape into the interstellar medium. Comment: 23 pages, 6 figures, to appear in Annual Review of Nuclear and Particle Science |
| Databáze: | arXiv |
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