Unveiling the Surprising Origins of Adolescent Galaxies and Supernovae
TL;DR Summary
Astrophysicists using NASA's James Webb Space Telescope have discovered that teenage galaxies, formed 2-3 billion years after the Big Bang, exhibit high temperatures and unexpected elements like nickel. The research, part of the CECILIA Survey, provides new insights into the early stages of galactic development and offers a glimpse into the physics that shaped galaxies like the Milky Way. The presence of nickel, a rare and difficult-to-observe element, suggests unique conditions within these galaxies. The study also revealed that the teenage galaxies were hotter than expected, indicating a different chemical makeup compared to older galaxies.
Topics:top-news#astronomy#astrophysics#chemical-evolution#galactic-evolution#james-webb-space-telescope#teenage-galaxies
- Strange Chemistry: Webb Reveals “Teenage Galaxies” Are Unusually Hot, Glowing With Unexpected Elements SciTechDaily
- Glimpse of the earliest supernova ever could reveal our cosmic origins New Scientist
- JWST uncovers a surprising amount of nickel in adolescent galaxies Astronomy Magazine
- Glimpse of the earliest supernovae could reveal our cosmic origins New Scientist
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