A Metal-Free Galaxy at z = 3.19? Evidence of Late Population III Star Formation at Cosmic Noon

Abstract

Star formation from metal-free gas, the hallmark of the first generation of Population III stars, was long assumed to occur only in the very early Universe. We report the discovery of MPG-CR3 (Metal-Pristine Galaxy COSMOS Redshift 3; hereafter CR3), an extremely metal-poor galaxy at redshift z= 3.1930.016. From JWST, VLT, and Subaru observations, CR3 exhibits exceptionally strong Lyα, Hα, and He I λ10830 emission. We measure rest-frame equivalent widths of EW0(Lyα) =822101 Angstrom and EW0(Hα) =2814327 Angstrom, among the highest seen in star-forming systems. No metal lines, e.g. [O III] λλ4959,5007, C IV λλ1548,1550, have statistically significant detections, placing a 2-σ upper limit on the gas-phase metallicity of 12+log(O/H) < 6.52 (Z < 7×10-3\ Z) with strong-line calibration established by JWST, making it the most metal-poor galaxy known at cosmic noon. Considering systematic uncertainties of 0.3 dex in the calibrations, the most conservative 2-σ upper limit is set to 12+log(O/H) < 6.95. The observed Lyα/Hα flux ratio is 13.92.5, indicating negligible dust attenuation. Spectral energy distribution modeling with Pop III stellar templates indicates a very young (2 Myr), low-mass (M* ≈ 6.1× 105 M) stellar population. Further, the photometric redshifts reveal that CR3 could reside in a slightly underdense environment (δ ≈ -0.12). CR3 provides evidence that first-generation star formation could persist well after the epoch of reionization, challenging the conventional view that pristine star formation ended by z6.