Early Results from GLASS-JWST. XXVI. Spatially Resolved Star Formation and Balmer Decrements at 1.1<z<2.3 from NIRISS Slitless Spectroscopy

Abstract

Using JWST/NIRISS slitless spectroscopy, we present spatially resolved Balmer decrement measurements for 79 galaxies at 1.1 < z < 2.3, which are gravitationally lensed by the foreground cluster Abell 2744. By stacking Hα and Hβ emission maps in bins of stellar mass and redshift, we derive radial profiles of nebular dust attenuation and dust-corrected star formation rate (SFR). We find tentative evidence that the radial gradients of dust attenuation toward Hα ( A(Hα)) vary with both redshift and stellar mass. At lower redshifts (z = 1.10--1.53), low-mass galaxies ( 7.0<log(M*/M)≤8.5) exhibit steeper A(Hα) gradients than higher-mass galaxies ( 9.5<log(M*/M)≤11.0), while the latter maintain detectable dust attenuation out to larger galactocentric radii. Galaxies at higher redshifts (z = 1.76--2.29) show lower attenuation levels. At fixed galactocentric radius, galaxies in the low-redshift bin generally exhibit higher dust attenuation than those at high redshifts, consistent with an increase in dust content toward later cosmic times. Dust-corrected SFR profiles in massive systems at lower redshifts are more spatially extended than those at higher redshifts, consistent with inside-out disk growth at z1.5. These results suggest possible differences in attenuation properties across stellar mass and redshift bins, and demonstrate the power of gravitational lensing to probe internal structures in faint galaxies at sub-kiloparsec resolution.