High-Redshift Galaxy Candidates at z > 6 as Revealed by JWST Observations of MACS0647

TL;DR

This paper presents a catalog of 57 high-redshift galaxy candidates at z > 6, confirmed through JWST observations, revealing their properties, overdensities, and potential gravitational interactions, advancing understanding of early galaxy formation.

Contribution

It provides the first extensive spectroscopic confirmation and physical characterization of high-redshift galaxies using JWST, including detailed analysis of their properties and spatial structures.

Findings

57 high-redshift galaxy candidates identified

Spectroscopic confirmation of 14 galaxies at z=6.10--9.25

Detection of galaxy overdensity and potential gravitationally bound components

Abstract

We present a catalog of 57 high-redshift $z>6$ galaxy candidates, including 14 spectroscopic confirmations ($z = 6.10$ -- 9.25), 2 Little Red Dots ($z = 4.77$, 5.81), and 2 interlopers ($z = 3.23$, 3.72), based on \JWST\ NIRCam imaging (7 filters), NIRSpec spectroscopy (PRISM and G395H), and archival \HST\ imaging (17 filters) of the strong lensing galaxy cluster MACS0647. Our highest redshift confirmation ($z = 9.25$) is an Extremely Blue Galaxy (presented in~\citealt{Yanagisawa2024}), and here we identify a spectral turnover likely due to damped Lyman-$\alpha$. We identify an overdensity of galaxies with spectroscopic redshifts $z = 6.1$, confirming the $z \sim 6$ overdensity identified in \HST\ images. In one of these galaxies, our high-resolution G395H spectroscopy reveals two spatially resolved components with a velocity difference of $\sim$90 km/s; if these components are gravitationally bound, this would imply a dynamical mass on the order of $\sim 10^8\ M_\odot$ given their projected separation. We present spectral line fluxes, widths, and derived physical properties, including stellar masses ($10^8 - 10^9 \ \mathrm{M}_{\odot}$) and metallicities ($10\% - 40\% \ \mathrm{Z}_{\odot}$) for our spectroscopic sample. We note half of our NIRSpec data was obtained with standard 3-slitlet nods and half was obtained with single slitlets yielding similar results, demonstrating the power to observe more sources on a densely packed NIRSpec MSA.