Early results from GLASS-JWST. V: the first rest-frame optical size-luminosity relation of galaxies at $z>7$

TL;DR

This study presents the first rest-frame optical size-luminosity relation for galaxies at redshifts greater than 7, using deep JWST NIRCam imaging to measure galaxy sizes across multiple wavelengths.

Contribution

It provides the initial measurement of the size-luminosity relation at high redshift in the rest-frame optical, revealing wavelength-dependent size variations and potential deviations at the faint end.

Findings

Median galaxy size decreases from optical to UV wavelengths.

Size-luminosity relation slope is approximately 0.2 across bands.

UV size-luminosity relation may steepen at the faint end.

Abstract

We present the first rest-frame optical size-luminosity relation of galaxies at $z>7$, using the NIRCam imaging data obtained by the GLASS James Webb Space Telescope Early Release Science (GLASS-JWST-ERS) program, providing the deepest extragalactic data of the ERS campaign. Our sample consist of 19 photometrically selected bright galaxies with $m_\text{F444W}\leq27.8$ at $7<z<9$ and $m_\text{F444W}<28.2$ at $z\sim9-15$. We measure the size of the galaxies in 5 bands, from the rest-frame optical ($\sim4800\,{\rm \AA}$) to the ultra-violet (UV; $\sim1600\,{\rm \AA}$) based on the S\'ersic model, and analyze the size-luminosity relation as a function of wavelength. Remarkably, the data quality of NIRCam imaging is sufficient to probe the half-light radius $r_e$ down to $\sim 100$ pc at $z>7$. Given the limited sample size and magnitude range, we first fix the slope to that observed for larger samples in rest-frame UV using HST samples. The median size $r_0$ at the reference luminosity $M=-21$ decreases slightly from rest-frame optical ($600\pm80$ pc) to UV ($450\pm130$ pc). We then re-fit the size-luminosity relation allowing the slope to vary. The slope is consistent with $\beta\sim0.2$ for all bands except F150W, where we find a marginally steeper slope of $\beta=0.53\pm0.15$. The steep UV slope is mainly driven by the smallest and faintest galaxies. If confirmed by larger samples, it implies that the UV size-luminosity relation breaks toward the faint end as suggested by lensing studies.