Radial profiles of lensed $z \sim 1$ galaxies on sub-kiloparsec scales

TL;DR

This study uses gravitational lensing combined with HST and ALMA observations to analyze the detailed radial distribution of star formation, stellar mass, and molecular gas in two high-redshift galaxies, revealing similarities and differences with local galaxies.

Contribution

First detailed spatially resolved analysis of high-redshift galaxies' physical properties down to 30-100 pc scales using gravitational lensing and multi-wavelength data.

Findings

High-redshift galaxy scale lengths range from 0.5 to 1.5 kpc.

Molecular gas surface density profiles are offset by up to a factor of 20 compared to local galaxies.

Star formation rate profiles follow the Kennicutt-Schmidt law with similar offsets.

Abstract

We study the spatially resolved physical properties of the Cosmic Snake arc in MACS J1206.2-0847 and the arc in Abell 0521 (A521). These are two strongly lensed galaxies at redshifts $z=1.036$ and $z=1.044$. We used observations of the Hubble Space Telescope (HST) and the Atacama Large Millimeter/submillimeter Array (ALMA). The former gives access to the star formation rate (SFR) and stellar mass ($M_\star$), and the latter to the H$_2$ molecular gas mass ($M_{\mathrm{mol}}$). HST and ALMA observations have similar angular resolutions of $0.15^{\prime \prime}-0.2^{\prime \prime}$, which with the help of strong gravitational lensing enable us to reach spatial resolutions down to $\sim 30\,\mathrm{pc}$ and $\sim 100\,\mathrm{pc}$ in these two galaxies, respectively. These resolutions are close to the resolution of observations of nearby galaxies. We study the radial profiles of SFR, $M_\star$, and $M_{\mathrm{mol}}$ surface densities of these high-redshift galaxies and compare the corresponding exponential scale lengths with those of local galaxies. We find that the scale lengths in the Cosmic Snake are about $0.5\,\mathrm{kpc}-1.5\,\mathrm{kpc}$, and they are 3 to 10 times larger in A521. This is a significant difference knowing that the two galaxies have comparable integrated properties. These high-redshift scale lengths are nevertheless comparable to those of local galaxies, which cover a wide distribution. The particularity of our high-redshift radial profiles is the normalisation of the $M_{\mathrm{mol}}$ surface density profiles ($\Sigma M_{\mathrm{mol}}$), which are offset by up to a factor of 20 with respect to the profiles of $z=0$ counterparts. The SFR surface density profiles are also offset by the same factor as $\Sigma M_{\mathrm{mol}}$, as expected from the Kennicutt-Schmidt law.