Updated
Updated · spacedaily.com · Jul 18
James Webb Detects Silicon Carbide, Iron Dust in 2 Sextans A Stars
Updated
Updated · spacedaily.com · Jul 18

James Webb Detects Silicon Carbide, Iron Dust in 2 Sextans A Stars

1 articles · Updated · spacedaily.com · Jul 18

Summary

  • Six stars observed by Webb in Sextans A yielded two standout dust signals: carbon star 90428 showed a confirmed 11.3-micrometre silicon-carbide feature, while oxygen-rich star 90034 was best fit by metallic-iron dust.
  • That is unexpected because Sextans A contains only about 1% to 7% of the Sun’s metal abundance, where models generally predict silicon-carbide and iron-bearing dust should become scarce.
  • The iron result is indirect rather than a line-by-line identification: 90034’s smooth infrared excess lacked normal silicate features, and model comparisons favored an iron-dominated wind with less than 1% silicate dust.
  • The finding makes Sextans A the lowest-metallicity galaxy known to host a star with detected SiC dust, but the study covered just six asymptotic giant branch stars and does not show such dust is common there.
  • Because higher-mass AGB stars can return dust within roughly 30 to 50 million years, the results point to a possible early dust source that current galaxy-evolution models may undercount.

Insights

If old stars create iron dust, why do other galaxies show iron-rich gas with no dust?
How do aging stars forge exotic dust from elements they can’t even create?
Did the universe build its first planets with unexpected stardust from dying stars?