Abstract
Radioactive decay of unstable atomic nuclei leads to liberation of nuclear binding energy in the forms of gamma-ray photons and secondary particles (electrons, positrons); their energy then energizes surrounding matter. Unstable nuclei are formed in nuclear reactions, which can occur either in hot and dense extremes of stellar interiors or explosions or from cosmic-ray collisions. In high-energy astronomy, direct observations of characteristic gamma-ray lines from the decay of radioactive isotopes are important tools to study the process of cosmic nucleosynthesis and its sources, as well as tracing the flows of ejecta from such sources of nucleosynthesis. These observations provide a valuable complement to indirect observations of radioactive energy deposits, such as the measurement of supernova light in the optical. Here we present basics of radioactive decay in astrophysical context, and how gamma-ray lines reveal details about stellar interiors, about explosions on stellar surfaces or of entire stars, and about the interstellar-medium processes that direct the flow and cooling of nucleosynthesis ashes once having left their sources. We address radioisotopes such as 56Ni, 44Ti, 26Al, 60Fe, 22Na, and 7Be , and also how characteristic gamma-ray emission from the annihilation of positrons is connected to these.
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Acknowledgements
R.D. acknowledges support from the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) under its Excellence Strategy with the Munich Clusters of Excellence Origin and Structure of the Universe and Origins (EXC-2094-390783311), and by the EU through COST action ChETEC CA160117.
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Diehl, R. (2023). Radioactive Decay. In: Bambi, C., Santangelo, A. (eds) Handbook of X-ray and Gamma-ray Astrophysics. Springer, Singapore. https://doi.org/10.1007/978-981-16-4544-0_86-1
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