Low Mass Stars or Intermediate Mass Stars? The Stellar Origin of Presolar Oxide Grains Revealed by Their Isotopic Composition

S. Palmerini; S. Palmerini; S. Cristallo; S. Cristallo; M. Busso; M. Busso; M. La Cognata; M. L. Sergi; M. L. Sergi; D. Vescovi; D. Vescovi; D. Vescovi

doi:10.3389/fspas.2020.607245

Frontiers in Astronomy and Space Sciences (Feb 2021)

Low Mass Stars or Intermediate Mass Stars? The Stellar Origin of Presolar Oxide Grains Revealed by Their Isotopic Composition

S. Palmerini,
S. Palmerini,
S. Cristallo,
S. Cristallo,
M. Busso,
M. Busso,
M. La Cognata,
M. L. Sergi,
M. L. Sergi,
D. Vescovi,
D. Vescovi,
D. Vescovi

Affiliations

S. Palmerini: Dipartimento di Fisica e Geologia, Università degli Studi di Perugia, Perugia, Italy
S. Palmerini: INFN, Sezione di Perugia, via A. Pascoli snc, Perugia, Italy
S. Cristallo: INFN, Sezione di Perugia, via A. Pascoli snc, Perugia, Italy
S. Cristallo: INAF, Observatorio d'Abruzzo, via Mentore Maggini snc, Teramo, Italy
M. Busso: Dipartimento di Fisica e Geologia, Università degli Studi di Perugia, Perugia, Italy
M. Busso: INFN, Sezione di Perugia, via A. Pascoli snc, Perugia, Italy
M. La Cognata: INFN LNS, via Santa Sofia 62, Catania, Italy
M. L. Sergi: INFN LNS, via Santa Sofia 62, Catania, Italy
M. L. Sergi: Dipartimento di Fisica e Astronomia, Università degli Studi di Catania, Catania, Italy
D. Vescovi: INFN, Sezione di Perugia, via A. Pascoli snc, Perugia, Italy
D. Vescovi: INAF, Observatorio d'Abruzzo, via Mentore Maggini snc, Teramo, Italy
D. Vescovi: Gran Sasso Science Institute, viale Francesco Crispi, L’Aquila, Italy

DOI: https://doi.org/10.3389/fspas.2020.607245
Journal volume & issue: Vol. 7

Abstract

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Among presolar grains, oxide ones are made of oxygen, aluminum, and a small fraction of magnesium, produced by the 26Al decay. The largest part of presolar oxide grains belong to the so-called group 1 and 2, which have been suggested to form in Red Giant Branch (RGB) and Asymptotic Giant Branch (AGB) stars, respectively. However, standard stellar nucleosynthesis models cannot account for the 17O/16O, 18O/16O, and 26Al/27Al values recorded in those grains. Hence, for more than 20 years, the occurrence of mixing phenomena coupled with stellar nucleosynthesis have been suggested to account for this peculiar isotopic mix. Nowadays, models of massive AGB stars experiencing Hot Bottom Burning or low mass AGB stars where Cool Bottom Process, or another kind of extra-mixing, is at play, nicely fit the oxygen isotopic mix of group 2 oxide grains. The largest values of the 26Al/27Al ratio seem somewhat more difficult to account for.

Published in Frontiers in Astronomy and Space Sciences

ISSN: 2296-987X (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Science: Astronomy; Science: Physics: Geophysics. Cosmic physics
Website: http://journal.frontiersin.org/journal/astronomy-and-space-sciences

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