CLEAR: The Evolution of Spatially Resolved Star Formation in Galaxies between 0.5 z 1.7 using Hα Emission Line Maps

Abstract

Using spatially resolved H-alpha emission line maps of star-forming galaxies, we study the evolution of gradients in galaxy assembly over a wide range in redshift (0.5<z<1.7). Our z0.5 measurements come from deep Hubble Space Telescope WFC3 G102 grism spectroscopy obtained as part of the CANDELS Lyman-alpha Emission at Reionization (CLEAR) Experiment. For star-forming galaxies with Log(M*/M)≥slant8.96, the mean H-alpha effective radius is 1.20.1 times larger than that of the stellar continuum, implying inside-out growth via star formation. This measurement agrees within 1σ with those measured at z1 and z1.7 from the 3D-HST and KMOS-3D surveys respectively, implying no redshift evolution. However, we observe redshift evolution in the stellar mass surface density within 1 kiloparsec (1kpc). Star-forming galaxies at z0.5 with a stellar mass of Log(M*/M)=9.5 have a ratio of 1kpc in H-alpha relative to their stellar continuum that is lower by (192)\% compared to z1 galaxies. 1kpc, Hα/1kpc,Cont decreases towards higher stellar masses. The majority of the redshift evolution in 1kpc,Hα/1kpc,Cont versus stellar mass stems from the fact that Log(1kpc, Hα) declines twice as much as Log(1kpc, Cont) from z 1 to 0.5 (at a fixed stellar mass of Log(M*/M)=9.5). By comparing our results to the TNG50 cosmological magneto-hydrodynamical simulation, we rule out dust as the driver of this evolution. Our results are consistent with inside-out quenching following in the wake of inside-out growth, the former of which drives the significant drop in 1kpc, Hα from z1 to z0.5.

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