The Pristine HeII Emitter near GN-z11: Constraining the Mass Distribution of the First Stars
Abstract
The properties of the first metal-free stars remain largely unknown, and so far, the only data-driven constraints on their mass distribution (IMF) come from near-field cosmology. Here, we interpret new observations of the C1 and C2 components of Hebe, the HeII emitter near the galaxy GN-z11. Using a locally calibrated model, we robustly confirm the pristine (PopIII) nature of both components, showing that the measured upper limits on metal lines can only be reproduced by galaxies with >50\% of their stellar mass in PopIII stars. We find that C1 is consistent with a purely PopIII system and adopt a simple parametric approach to infer the implications for the PopIII IMF and stellar mass. The observed HeII/Hγ ratio excludes steep IMFs, favoring top-heavy distributions, especially for young stellar ages (≤ 1 Myr). Combined with the HeII luminosity, this implies a total PopIII stellar mass of 2 · 104 < M/M < 6 · 105. While degeneracies between IMF, stellar mass, and age remain, adopting the lower stellar masses predicted by simulations (M < 105\,M) strengthens the preference for top-heavy IMFs. Combining these results with near-field constraints, which instead exclude the flattest IMFs, we define a data-driven range of viable PopIII IMFs, linking characteristic mass and slope. This work demonstrates that direct observations of high-z PopIII systems can place independent constraints on the IMF of the first stars, opening a new window on their formation and properties.
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