A high rate of foreground contaminants toward high-redshift galaxies resolved by JWST
Weiyang Liu, Linhua Jiang
arXiv:2602.04179v1 Announce Type: new
Abstract: We present a study of high-redshift Ly$alpha$ emitters (LAEs) with multiple components using HST and JWST. High-redshift galaxies are mostly point-like objects on ground-based images, but they often exhibit multiple components in higher spatial resolution images. JWST for the first time allow detailed analyses on these individual components. We collect 840 spectroscopically confirmed LAEs at $z=2sim7$ from the literature and nearly 50% of them appear to have multiple components in JWST images. We further construct a sample of 248 LAEs that have two or more relatively isolated components in a circular aperture of 2$arcsec$ in diameter. We estimate photometric redshifts for all 593 components of the 248 LAEs, and find that 68% of them are `real components’ with photometric redshifts consistent with the spectroscopic redshifts of the LAEs. The remaining components are mostly foreground objects. The fraction of the `real components’ decreases rapidly with the projected distance to the LAE centers from $sim80%$ at $0farcs2-0farcs4$ to $sim30%$ at $0farcs8-1farcs0$. Our SED modeling results suggest that the majority of the LAEs are young, low-mass, low extinction starburst galaxies (partly due to a selection effect), and their `real components’ have stronger star-forming activities than main-sequence galaxies. We investigate the potential impact of the high foreground contamination rate on previous studies based on ground-based images that often use a 2$arcsec$ aperture for photometry, and find that some of key parameters such as stellar mass would have been largely affected.arXiv:2602.04179v1 Announce Type: new
Abstract: We present a study of high-redshift Ly$alpha$ emitters (LAEs) with multiple components using HST and JWST. High-redshift galaxies are mostly point-like objects on ground-based images, but they often exhibit multiple components in higher spatial resolution images. JWST for the first time allow detailed analyses on these individual components. We collect 840 spectroscopically confirmed LAEs at $z=2sim7$ from the literature and nearly 50% of them appear to have multiple components in JWST images. We further construct a sample of 248 LAEs that have two or more relatively isolated components in a circular aperture of 2$arcsec$ in diameter. We estimate photometric redshifts for all 593 components of the 248 LAEs, and find that 68% of them are `real components’ with photometric redshifts consistent with the spectroscopic redshifts of the LAEs. The remaining components are mostly foreground objects. The fraction of the `real components’ decreases rapidly with the projected distance to the LAE centers from $sim80%$ at $0farcs2-0farcs4$ to $sim30%$ at $0farcs8-1farcs0$. Our SED modeling results suggest that the majority of the LAEs are young, low-mass, low extinction starburst galaxies (partly due to a selection effect), and their `real components’ have stronger star-forming activities than main-sequence galaxies. We investigate the potential impact of the high foreground contamination rate on previous studies based on ground-based images that often use a 2$arcsec$ aperture for photometry, and find that some of key parameters such as stellar mass would have been largely affected.