Accurate dust temperature determination in a $z = 7.13$ galaxy

TL;DR

This study uses ALMA Band 9 observations to accurately determine the dust temperature and mass in a galaxy at redshift 7.13, providing new methods and insights into dust properties during the Epoch of Reionization.

Contribution

It introduces a novel method for estimating dust temperature and mass using only [CII] line and continuum data, enhancing accuracy over traditional techniques.

Findings

Dust temperature is around 40-42 K, confirming the increasing trend with redshift.

Dust mass is approximately 1.7-2.0 x 10^7 solar masses, consistent with supernova origin.

Band 9 observations improve temperature estimates by ~50%.

Abstract

We report ALMA Band 9 continuum observations of the normal, dusty star-forming galaxy A1689-zD1 at $z = 7.13$, resulting in a $\sim$4.6$\sigma$ detection at $702$ GHz. For the first time these observations probe the far infrared (FIR) spectrum shortward of the emission peak of a galaxy in the Epoch of Reionization (EoR). Together with ancillary data from earlier works, we derive the dust temperature, $T_{\rm d}$, and mass, $M_{\rm d}$, of A1689-zD1 using both traditional modified blackbody spectral energy density fitting, and a new method that relies only on the [CII] $158\ \mathrm{\mu m}$ line and underlying continuum data. The two methods give $T_{\rm d} = (42^{+13}_{-7}, 40^{+13}_{-7}$) K, and $M_{\rm d} = (1.7^{+1.3}_{-0.7}, 2.0^{+1.8}_{-1.0})\,\times{}\,10^{7} \,M_{\odot}$. Band 9 observations improve the accuracy of the dust temperature (mass) estimate by $\sim 50$% (6 times). The derived temperatures confirm the reported increasing $T_{\rm d}$-redshift trend between $z=0$ and $8$; the dust mass is consistent with a supernova origin. Although A1689-zD1 is a normal UV-selected galaxy, our results, implying that $\sim$85% of its star formation rate is obscured, underline the non-negligible effects of dust in EoR galaxies.