JWST catches the assembly of a $z\sim5$ ultra-low-mass galaxy

TL;DR

This paper reports the first detailed observation of a major merger between two ultra-low-mass galaxies at z~5, revealing their star formation, metallicity, and potential role in cosmic reionization.

Contribution

It provides new insights into the assembly of early low-mass galaxies through mergers, starbursts, and in-situ star formation, relevant for understanding reionization.

Findings

The merging galaxies are experiencing synchronized starbursts.

The system's ionizing photon production is dominated by the starburst phase.

The merger will produce a galaxy with at least 2×10^7 solar masses.

Abstract

Using CANUCS imaging we found an apparent major merger of two $z\sim5$ ultra-low-mass galaxies ($M_\star\sim10^{7}M_\odot$ each) that are doubly imaged and magnified $\sim$12-15$\times$ by the lensing cluster MACS 0417. Both galaxies are experiencing young ($\sim$100 Myr), synchronised bursts of star formation with $\log({\rm sSFR/Gyr^{-1}} )\sim$1.3-1.4, yet SFRs of just $\sim 0.2 M_\odot\ {\rm yr}^{-1}$. They have sub-solar ($Z\sim0.2Z_\odot$) gas-phase metallicities and are connected by an even more metal-poor star-forming bridge. The galaxy that forms from the merger will have a mass of at least $M_\star\sim 2\times10^7 M_\odot$, at least half of it formed during the interaction-induced starburst. More than half of the ionizing photons produced by the system (before and during the merger) will have been produced during the burst. This system provides the first detailed look at a merger involving two high-$z$ ultra-low-mass galaxies of the type believed to be responsible for reionizing the Universe. It suggests that such galaxies can grow via a combination of mass obtained through major mergers, merger-triggered starbursts, and long-term in-situ star formation. If such high-$z$ mergers are common, then merger-triggered starbursts could be significant contributors to the ionizing photon budget of the Universe.