Transition from outside-in to inside-out at

By combining high-resolution observations from JWST and HST, we measured the stellar masses, star formation rates (SFRs), and multiwavelength morphologies of galaxies in the CANDELS fields. Furthermore, based on rest-frame 1 μm morphologies, we derived the spatially resolved stellar mass and SFR surface density (Σ* and ΣSFR) profiles for 46,313 galaxies with reliable structural measurements at 0 8, and we provide the corresponding catalog. For star-forming galaxies, our results show excellent consistency with previous studies in terms of the star formation main sequence and the size–mass relation, demonstrating the robustness of our stellar mass and SFR measurements. For spatially resolved profiles, we find that at higher redshifts (z > 2.5), the median radial profile of ΣSFR is nearly parallel to but slightly steeper than that of Σ*. This results in mildly negative gradients in the specific SFR (sSFR) profiles in all stellar mass bins we considered. These findings indicate that galaxies at z > 2.5 cannot grow in size via in situ star formation alone, challenging the understanding of galaxy size evolution beyond the cosmic noon. In contrast, at z < 2.0, the sSFR profiles transition to exhibit increasingly more positive gradients at lower redshifts, consistent with an inside-out growth scenario in which star formation preferentially expands the galactic outskirts.