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Rapidly rotating Population III stellar models as a source of primary nitrogen

Tsiatsiou, Sophie; Sibony, Yves; Nandal, Devesh; Sciarini, Luca; Hirai, Yutaka; Ekström, Sylvia; Farrell, Eoin; Murphy, Laura; Choplin, Arthur; Hirschi, Raphael; Chiappini, Christina; Liu, Boyuan; Bromm, Volker; Groh, Jose; Meynet, Georges

Authors

Sophie Tsiatsiou

Yves Sibony

Devesh Nandal

Luca Sciarini

Yutaka Hirai

Sylvia Ekström

Eoin Farrell

Laura Murphy

Arthur Choplin

Christina Chiappini

Boyuan Liu

Volker Bromm

Jose Groh

Georges Meynet



Abstract

Context. The first stars might have been fast rotators. This would have important consequences for their radiative, mechanical, and chemical feedback.

Aims. We discuss the impact of fast initial rotation on the evolution of massive Population III models and on their nitrogen and oxygen stellar yields.

Methods. We explore the evolution of Population III stars with initial masses in the range of 9 M⊙ ≤ Mini ≤ 120 M⊙, starting with an initial rotation on the zero-age main sequence equal to 70% of the critical one.

Results. We find that with the physics of rotation considered here, our rapidly rotating Population III stellar models do not follow a homogeneous evolution. They lose very little mass in the case in which mechanical winds are switched on when the surface rotation becomes equal to or larger than the critical velocity. The impact on the ionising flux appears to be modest when compared to moderately rotating models. Fast rotation favours, in models with initial masses above ∼20 M⊙, the appearance of a very extended intermediate convective zone around the H-burning shell during the core He-burning phase. This shell has important consequences for the sizes of the He- and CO-cores, and thus impacts the final fate of stars. Moreover, it has a strong impact on nucleosynthesis, boosting the production of primary 14N.

Conclusions. Fast initial rotation significantly impacts the chemical feedback of Population III stars. Observations of extremely metal-poor stars and/or starbursting regions are essential to provide constraints on the properties of the first stars.

Citation

Tsiatsiou, S., Sibony, Y., Nandal, D., Sciarini, L., Hirai, Y., Ekström, S., Farrell, E., Murphy, L., Choplin, A., Hirschi, R., Chiappini, C., Liu, B., Bromm, V., Groh, J., & Meynet, G. (2024). Rapidly rotating Population III stellar models as a source of primary nitrogen. Astronomy and Astrophysics, 687, 1-17. https://doi.org/10.1051/0004-6361/202449156

Journal Article Type Article
Acceptance Date Apr 20, 2024
Online Publication Date Jul 25, 2024
Publication Date Jul 25, 2024
Deposit Date May 16, 2025
Journal Astronomy & Astrophysics
Print ISSN 2329-1273
Electronic ISSN 2329-1265
Publisher Hans Publishers
Peer Reviewed Peer Reviewed
Volume 687
Article Number A307
Pages 1-17
DOI https://doi.org/10.1051/0004-6361/202449156
Keywords stars, abundances / stars, massive / stars, Population III / stars, rotation
Public URL https://keele-repository.worktribe.com/output/1234000



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