Clues on the presence and segregation of very massive stars in the Sunburst Lyman-continuum cluster at z=2.37

TL;DR

This study identifies very massive stars in a high-redshift star cluster, showing their spectral signatures, central concentration, and significant contribution to Lyman continuum emission, revealing insights into early massive star formation.

Contribution

First detection of very massive stars in a z=2.37 star cluster with spectral evidence and spatial analysis, highlighting their role in ionizing radiation escape.

Findings

Spectral signatures of VMS confirmed in the cluster.

VMS are centrally concentrated within the cluster.

VMS contribute approximately 15% of the Lyman continuum photons.

Abstract

We report the identification of very massive stars (VMS; mass $> 100$\,\msun) that may be segregated in the center of the young massive star cluster at $z$=2.37 hosted in the lensed galaxy called {\tt Sunburst} galaxy. This result is based on two pieces of evidence: (1) VLT/MUSE spectra of several multiple images of the same star cluster show key spectral signatures of VMS, such as the \heii\ broad emission, \nivblue\ emission, and an \niv\ P-Cygni profile. In particular, \heii\ is broad ($\sim1610\pm300$ \kms), with an equivalent width of 3\AA,\ and asymmetric profile. These features require an extremely young ($\sim2.5$ Myr) stellar population component in which the masses of the stars exceed 100~\msun. When a Salpeter initial mass function and BPASS models for normal massive stars are assumed, the observed spectral features require $\sim$400 VMS. (2) The same star cluster is detected at a signal-to-noise ratio of~$\sim100$ in the Lyman continuum domain ($\lambda < 900$\AA). The Lyman continuum emission emerges from a region with a radius that is at least twice smaller than what is observed at 1700\AA~(independently of magnification) and is located in the center of the cluster. After delensing, the effective radii in absolute scales are R$_{\tt eff}[{\tt LyC}]\sim4.7 \pm 1.5$ pc and R$_{\tt eff}[1700]= 7.8 \pm 1.4$ pc. The Lyman continuum radiation is mainly produced by hot and massive stars, which implies that their spatial distribution (including that of VMS) is preferentially more confined in the central parts of the cluster. Approximately 400 VMS hosted by a cluster of $\sim 10^7$ \msun\ produce $\sim$15\% of the escaping Lyman continuum photons, and the remaining photons are produced by other massive early-type stars.