The JWST EXCELS survey: an extremely metal-poor galaxy at z=8.271 hosting an unusual population of massive stars

Abstract

We present an analysis of the rest-frame optical (λ 3100-5600 \,A) spectrum of a log10(M*/M) = 8.6 star-forming galaxy at z=8.271 from JWST/NIRSpec medium-resolution observations taken as part of the EXCELS survey. The galaxy (EXCELS-63107) is compact, with a size consistent with the size of local star-forming cluster complexes (re < 200 \, pc) and has an extremely steep UV continuum measured from JWST/NIRCam photometry (β=-3.30.3). The JWST/NIRSpec G395M spectrum of EXCELS-63107 is notable for its strong [OIII]λ4363 auroral-line emission relative to the [OIII]λ5007 forbidden line. Via a detailed emission-line and photoionization-modelling analysis, we find that the the observed properties of EXCELS-63107 are consistent with the presence of an ionizing source with an effective temperature of T eff 80 \, 000\,K heating ionized gas with a density of ne < 104 \, cm-3 to a volume-averaged electron temperature of Te 34 \, 000\,K. Crucially, we find that stellar population models assuming a standard IMF are not capable of producing the required heating. We determine an oxygen abundance of 12+log(O/H)= 6.89+0.26-0.21 which is one of the lowest directly constrained oxygen abundances measured in any galaxy to date, and 10 × lower than is typical for z8 galaxies with the same stellar mass. The extremely low metallicity of EXCELS-63107 places it in a regime in which theoretical models expect a transition to a top-heavy IMF, and we speculate that a 10-30 \, × excess of M > 50 \, M stars is one plausible explanation for its observed properties. However, more exotic scenarios, such as Pop III star formation within a mildly enriched halo, are also consistent with the observations.