ALMA Observation of a $z\gtrsim10$ Galaxy Candidate Discovered with JWST

Ilsang Yoon, Christopher L. Carilli, Seiji Fujimoto, Marco Castellano, Emiliano Merlin, Paola Santini, Min S. Yun, Eric J. Murphy, Intae Jung, Caitlin M. Casey, Steven L. Finkelstein, Casey Papovich, Adriano Fontana, Tommaso Treu, Jonathan Letai

Published 2022-10-16Version 1

We report ALMA observation of a $z\gtrsim10$ galaxy candidate (GHZ1) discovered from the GLASS-JWST Early Release Science Program. Our ALMA program aims to detect the [OIII] emission line at the rest-frame 3393.0062 GHz ($88.36\mu$m) and far-IR continuum emission with the spectral window setup seamlessly covering 26.125 GHz frequency range ($10.10<z<11.14$). A total of 7 hours of on-source integration was employed, using four frequency settings to cover the full range (1.7 hours per setting), with 0.7" angular resolution. No line or continuum is clearly detected, with a 5$\sigma$ limit to the line emission of 0.4 mJy beam$^{-1}$ at 150 km s$^{-1}$ channel$^{-1}$, and to the continuum emission of 30$\mu$Jy beam$^{-1}$. We report marginal spectral and continuum features ($4.4\sigma$ and $2.6\sigma$ peak signal-to-noise ratio, respectively), within 0.17" of the JWST position of GHZ1. These features with an implication of a spectroscopic redshift of $z=10.38$, need to be verified with further observation. Assuming that the best photometric redshift estimate ($z=10.60^{+0.52}_{-0.60}$) is correct, the broadband galaxy spectral energy distribution model for the $3\sigma$ upper limit of the continuum flux from GHZ1 suggests that GHZ1 might have low dust temperature ($T_d<30$K). The $5\sigma$ upper limit of [OIII] line luminosity and the star formation rate estimate with large error, are consistent with the properties of low metallicity galaxies and those of local starburst galaxies. We also report clear detections of continuum emission from six galaxies in the field with the JWST counterparts.