A Comprehensive Study on Galaxies at z~9-17 Found in the Early JWST Data: UV Luminosity Functions and Cosmic Star-Formation History at the Pre-Reionization Epoch

Yuichi Harikane, Masami Ouchi, Masamune Oguri, Yoshiaki Ono, Kimihiko Nakajima, Yuki Isobe, Hiroya Umeda, Ken Mawatari, Yechi Zhang

Published 2022-08-02Version 1

We conduct a comprehensive study on dropout galaxy candidates at $z\sim 9-17$ using the first 90 arcmin$^2$ JWST/NIRCam images taken by the early release observations (ERO) and early release science (ERS) programs. With the JWST simulation images, we find that a number of foreground interlopers are selected with a weak photo-$z$ determination ($\Delta \chi^2>4$). We thus carefully apply a secure photo-$z$ selection criterion ($\Delta \chi^2>9$) and conventional color criteria with confirmations of the ERO NIRSpec spectroscopic redshifts, and obtain a total of 25 dropout galaxies at $z\sim 9-17$, including two candidates at $z_\mathrm{phot}=16.45_{-0.32}^{+0.09}$ and $16.66_{-0.34}^{+1.86}$. We perform thorough comparisons of dropout galaxies found in our work with recent JWST studies, and conclude that our galaxy sample is reliable enough for statistical analyses. We derive the UV luminosity functions at $z\sim 9-17$, and confirm that our UV luminosity functions at $z\sim 9$ and $12$ agree with those determined by previous HST and JWST studies. The cosmic star-formation rate density decreases from $z\sim 9$ to $12$, and perhaps to $17$, but the densities at $z\sim12-17$ are higher than the constant star formation efficiency model. Interestingly, there are six bright galaxy candidates at $z\sim 11-17$ with $M_{\rm UV}<-19.5$ whose stellar masses are very high, $10^{8-9} M_\odot$. Because a majority ($\sim 70\%$) of these galaxies shows no signatures of AGNs in their morphologies, the high cosmic star-formation rate densities and the existence of these stellar massive galaxies are explained by no suppression of star-formation by the UV background radiation at the pre-reionization epoch or an efficient UV radiation production by Population III-like star formation.