Discovery of SiC and Iron Dust Around AGB Stars in the very Metal-Poor Sextans A Dwarf Galaxy with JWST: Implications for Dust Production at High Redshift

M. L. Boyer; G. C. Sloan; A. Nanni; E. Tarantino; I. McDonald; S. Goldman; J.A.D.L Blommaert; F. Dell'Agli; M. Di Criscienzo; D. A. Garcia-Hernandez; R. D. Gehrz; M. A. T. Groenewegen; A. Javadi; O. C. Jones; F. Kemper; M. Marengo; K. B. W. McQuinn; J. M. Oliveira; G. Pastorelli; J. Roman-Duval; R. Sahai; E. D. Skillman; S. Srinivasan; J. Th. van Loon; D. R. Weisz; P. A. Whitelock

arXiv:2507.16766·astro-ph.SR·July 23, 2025

Discovery of SiC and Iron Dust Around AGB Stars in the very Metal-Poor Sextans A Dwarf Galaxy with JWST: Implications for Dust Production at High Redshift

M. L. Boyer, G. C. Sloan, A. Nanni, E. Tarantino, I. McDonald, S. Goldman, J.A.D.L Blommaert, F. Dell'Agli, M. Di Criscienzo, D. A. Garcia-Hernandez, R. D. Gehrz, M. A. T. Groenewegen, A. Javadi, O. C. Jones, F. Kemper, M. Marengo, K. B. W. McQuinn, J. M. Oliveira, G. Pastorelli

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TL;DR

This study uses JWST infrared spectroscopy to detect SiC and iron dust around AGB stars in the metal-poor Sextans A galaxy, revealing early dust formation processes relevant for high-redshift galaxy evolution.

Contribution

First detection of Si- and Fe-bearing dust around AGB stars at extremely low metallicity, expanding understanding of dust production in early universe conditions.

Findings

01

Detected SiC and iron dust in metal-poor AGB stars.

02

Iron dust production may rival supernovae at high redshift.

03

AGB stars can produce dust within 30-50 million years of formation.

Abstract

Low-resolution infrared spectroscopy from JWST confirms the presence of SiC and likely metallic iron dust around asymptotic giant branch (AGB) stars in the Sextans A dwarf galaxy, which has a metallicity ~1%-7% Z_sun. While metal-poor carbon-rich AGB stars are known to produce copious amounts of amorphous carbon dust owing to the dredge up of newly synthesized carbon, this is the first time that Si- and Fe-bearing dust has been detected at this extreme metallicity. Of the six AGB stars observed, one is an intermediate-mass (~1.2-4 M_sun) carbon star showing SiC dust, and another is an oxygen-rich M-type star with mass ~4-5 M_sun that is likely undergoing hot bottom burning. The infrared excess of the M-type star is strong, but featureless. We tested multiple dust species, and find that it is best fit with metallic iron dust. Assuming its dust-production rate stays constant over the…

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Taxonomy

TopicsAstronomy and Astrophysical Research · Stellar, planetary, and galactic studies · Astronomical Observations and Instrumentation