GA-NIFS: Witnessing the complex assembly of a star-forming system at z=5.7

Abstract

We present observations of the z5.7 Lyman-break galaxy HZ10 with the JWST/NIRSpec IFU in high and low spectral resolution (G395H, spectral resolving power R2700 and PRISM, R100, respectively), as part of the GA-NIFS program. By spatially resolving the source (spatial resolution 0.15'' or 0.9kpc), we find three spatially and spectrally distinct regions of line emission along with one region of strong continuum emission, all within a projected distance of <10kpc. The R2700 data features strong detections in Hβ, [OIII]λλ4959,5007, [NII]λλ6548,6584, Hα, and [SII]λλ6716,6731. The R100 data additionally contains a strong detection of the Lyα break, rest-frame UV and optical continuum, and [OII]λλ3726,3729. None of the detected lines present strong evidence for AGN excitation from line diagnostic diagrams, and no high-ionisation lines are detected. Using the detected lines, we constrain the electron density ( 10( ne / cm-3) 3) and metallicity (0.5-0.7 solar) in each component. Spaxel-by-spaxel fits reveal a strong east-west velocity gradient and significant line asymmetries (possibly indicating tidal features or outflows). The western component features a very red UV slope (β UV-0.9) and significant Hα emission, suggesting an evolved population and active star formation. A comparison to high resolution (0.3'' or 1.8kpc) [CII]158μm imaging obtained with the Atacama Large Millimetre/submillimetre Array (ALMA) reveals areas of dust obscuration. Altogether, these data suggest that HZ10 represents an ongoing merger, with a complex distribution of stars, gas, and dust <1Gyr after the Big Bang.

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