GA-NIFS: interstellar medium properties and tidal interactions in the evolved massive merging system B14-65666 at z=7.152

TL;DR

This study uses JWST/NIRSpec IFU observations to analyze the interstellar medium and tidal interactions in the massive, merging galaxy system B14-65666 at z=7.152, revealing detailed gas properties and evidence of complex dynamics.

Contribution

First detailed spatially-resolved analysis of an evolved, merging galaxy system at z>7 using JWST, combining optical and far-infrared data to study ISM conditions and interactions.

Findings

Gas-phase metallicity is about 0.2-0.3 solar.

Evidence of tidal interactions and outflows from broad emission lines.

Both cores follow the mass-metallicity relation at z>4.

Abstract

We present JWST/NIRSpec IFU observations of the z=7.152 galaxy system B14-65666, as part of the GA-NIFS survey. Line and continuum emission in this massive system (log10(M*/Msol)=9.8+/-0.2) is resolved into two strong cores surrounded by diffuse emission, as seen in recent JWST/NIRCam imaging. Our dataset contains detections of [OII]3726,3729, [NeIII]3869,3968, Balmer lines, [OIII]4959,5007, HeI5875, and weak [OIII]4363. Each spectrum is fit with a model that consistently incorporates interstellar medium conditions (i.e., electron temperature, Te, electron density, ne, and colour excess, E(B-V)). The resulting line fluxes are used to constrain the gas-phase metallicity (Zg~0.2-0.3 solar) and HBeta-based SFR for each region. Common line ratio diagrams (O32-R23, R3-R2, Ne3O2-R23) reveal that each line-emitting region lies at the intersection of low- and high-redshift galaxies, suggesting low ionisation and higher metallicity compared to the predominantly lower-mass galaxies studied with the JWST/NIRSpec IFU so far at z>5.5. Spaxel-by-spaxel fits reveal evidence for both narrow (FWHM<400 km s-1) and broad (FWHM>500 km s-1) line emission, the latter of which likely represents tidal interaction or outflows. Comparison to ALMA [CII]158um and [OIII]88um data shows a similar velocity structure, and we explore optical-far-infrared diagnostics. The two core galaxies both lie on the mass-metallicity relation at z>4, but show contrasting properties (e.g., M*, Zg), suggesting distinct evolutionary pathways. Combining the NIRSpec IFU and ALMA datasets, our analysis opens new windows into the merging system B14-65666.