Rest-frame near-infrared sizes of galaxies at cosmic noon: objects in JWST's mirror are smaller than they appeared
Abstract
Galaxy sizes and their evolution over cosmic time have been studied for decades and serve as key tests of galaxy formation models. However, at z1 these studies have been limited by a lack of deep, high-resolution rest-frame infrared imaging that accurately traces galaxy stellar mass distributions. Here, we leverage the new capabilities of the James Webb Space Telescope to measure the 4.4μm sizes of 1000 galaxies with M*/M9 and 1.0 z 2.5 from public CEERS imaging in the EGS deep field. We compare the sizes of galaxies measured from NIRCam imaging at 4.4μm (λrest1.6μ m) with sizes measured at 1.5μm (λrest5500A). We find that, on average, galaxy half-light radii are 8% smaller at 4.4μm than 1.5μm in this sample. This size difference is markedly stronger at higher stellar masses and redder rest-frame V-J colors: galaxies with M* 1011\, M have 4.4μm sizes that are 25% smaller than their 1.5μm sizes. Our results indicate that galaxy mass profiles are significantly more compact than their rest-frame optical light profiles at cosmic noon, and demonstrate that spatial variations in age and attenuation are important, particularly for massive galaxies. The trend that we find here impacts our understanding of the size growth and evolution of galaxies, and suggests that previous studies based on rest-frame optical light may not have captured the mass-weighted structural evolution of galaxies. This paper represents a first step towards a new understanding of the morphologies of early massive galaxies enabled by JWST's infrared window into the distant universe.
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