Litcius/Paper detail

Rapid Chemical Enrichment by Intermittent Star Formation in GN-z11

Chiaki Kobayashi, Andrea Ferrara

2024The Astrophysical Journal Letters63 citationsDOIOpen Access PDF

Abstract

Abstract We interpret the peculiar supersolar nitrogen abundance recently reported by the James Webb Space Telescope observations for GN-z11 ( z = 10.6) using our state-of-the-art chemical evolution models. The observed CNO ratios can be successfully reproduced—independently of the adopted initial mass function, nucleosynthesis yields, and presence of supermassive (>1000 M ⊙ ) stars—if the galaxy has undergone an intermittent star formation history with a quiescent phase lasting ∼100 Myr, separating two strong starbursts. Immediately after the second burst, Wolf–Rayet stars (up to 120 M ⊙ ) become the dominant enrichment source, also temporarily (<1 Myr) enhancing particular elements (N, F, Na, and Al) and isotopes ( 13 C and 18 O). Alternative explanations involving (i) single burst models, also including very massive stars and/or pair-instability supernovae, or (ii) pre-enrichment scenarios fail to match the data. Feedback-regulated, intermittent star formation might be common in early systems. Elemental abundances can be used to test this hypothesis and to get new insights on nuclear and stellar astrophysics.

Topics & Concepts

PhysicsAstrophysicsStarsGalaxySupernovaStar formationNucleosynthesisInitial mass functionAstronomyStellar, planetary, and galactic studiesGamma-ray bursts and supernovaeAstronomy and Astrophysical Research