The radioactive nuclei 26Al and 60Fe in the Cosmos and in the solar system

Diehl, R.; Lugaro, M.; Heger, A.; Sieverding, A.; Tang, X.; Li, K. A.; Li, E. T.; Doherty, C. L.; Krause, M. G. H.; Wallner, A.; Prantzos, N.; Brinkman, H. E.; den Hartogh, J.W.; B.Wehmeyer,; López, A. Yagüe; Pleintinger, M. M. M.; Wang, P.Banerjee andW.

doi:10.1017/pasa.2021.48

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The radioactive nuclei ²⁶Al and ⁶⁰Fe in the Cosmos and in the solar system

Diehl, R., Lugaro, M., Heger, A., Sieverding, A., Tang, X., Li, K. A., et al. (2021). The radioactive nuclei ²⁶Al and ⁶⁰Fe in the Cosmos and in the solar system. Publications of the Astronomical Society of Australia, 38: e062. doi:10.1017/pasa.2021.48.

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Item Permalink: https://hdl.handle.net/21.11116/0000-0009-E1F3-6 Version Permalink: https://hdl.handle.net/21.11116/0000-0009-E1F4-5

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Creators:
Diehl, R.¹, Author
Lugaro, M., Author
Heger, A., Author
Sieverding, A., Author
Tang, X., Author
Li, K. A., Author
Li, E. T., Author
Doherty, C. L., Author
Krause, M. G. H., Author
Wallner, A., Author
Prantzos, N., Author
Brinkman, H. E., Author
den Hartogh, J.W., Author
B.Wehmeyer, Author
López, A. Yagüe, Author
Pleintinger, M. M. M.¹, Author
Wang, P.Banerjee andW., Author

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1High Energy Astrophysics, MPI for Extraterrestrial Physics, Max Planck Society, ou_159890

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Abstract: The cosmic evolution of the chemical elements from the Big Bang to the present time is driven by nuclear fusion reactions inside stars and
stellar explosions. A cycle of matter recurrently re-processes metal-enriched stellar ejecta into the next generation of stars. The study of
cosmic nucleosynthesis and this matter cycle requires the understanding of the physics of nuclear reactions, of the conditions at which the
nuclear reactions are activated inside the stars and stellar explosions, of the stellar ejection mechanisms through winds and explosions, and
of the transport of the ejecta towards the next cycle, from hot plasma to cold, star-forming gas. Due to the long timescales of stellar evolution,
and because of the infrequent occurrence of stellar explosions, observational studies are challenging, as they have biases in time and space as
well as different sensitivities related to the various astronomical methods. Here, we describe in detail the astrophysical and nuclear-physical
processes involved in creating two radioactive isotopes useful in such studies, ²⁶Al and ⁶⁰Fe. Due to their radioactive lifetime of the order of a
million years, these isotopes are suitable to characterise simultaneously the processes of nuclear fusion reactions and of interstellar transport.
We describe and discuss the nuclear reactions involved in the production and destruction of ²⁶Al and ⁶⁰Fe, the key characteristics of the
stellar sites of their nucleosynthesis and their interstellar journey after ejection from the nucleosynthesis sites. This allows us to connect
the theoretical astrophysical aspects to the variety of astronomical messengers presented here, from stardust and cosmic-ray composition
measurements, through observation of γ rays produced by radioactivity, to material deposited in deep-sea ocean crusts and to the inferred
composition of the first solids that have formed in the Solar System. We show that considering measurements of the isotopic ratio of ²⁶Al
to ⁶⁰Fe eliminate some of the unknowns when interpreting astronomical results, and discuss the lessons learned from these two isotopes on
cosmic chemical evolution. This review paper has emerged froman ISSI-BJ Team project in 2017–2019, bringing together nuclear physicists,
astronomers, and astrophysicists in this inter-disciplinary discussion.

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Language(s): eng - English

Dates: Published Online: 2021-12-09

Publication Status: Published online

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Rev. Type: Peer

Identifiers: DOI: 10.1017/pasa.2021.48

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Title: Publications of the Astronomical Society of Australia

Abbreviation : Publ. Astron. Soc. Aust.

Source Genre: Journal

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Publ. Info: Cambridge, UK : Cambridge Univ. Press

Pages: - Volume / Issue: 38 Sequence Number: e062 Start / End Page: - Identifier: ISSN: 1448-6083
ISSN: 1323-3580