New technique to select recent fast-quenching galaxies at $z\sim2$ using the optical colors (2310.09703v1)

Abstract: Many massive quiescent galaxies have been discovered at $z>2$ thanks to multi-wavelength deep and wide surveys, however, substantial deep near-infrared spectroscopic observations are needed to constrain their star-formation histories statistically. Here, we present a new technique to select quiescent galaxies with a short quenching timescale ($\leq0.1$ Gyr) at $z\sim2$ photometrically. We focus on a spectral break at $\sim1600$ \AA~that appears for such fast-quenching galaxies $\sim1$ Gyr after quenching when early A-type stars go out, but late A-type stars still live. This spectral break at $z\sim2$ is similar to a Lyman break at $z\sim4$. We construct a set of color criteria for $z\sim2$ fast-quenching galaxies on $g-r$ vs. $r-i$ and $i-J$ vs. $J-H$ or $\rm i-[3.6]$ vs. $\rm [3.6]-[4.5]$ color diagrams, which are available with the existing and/or future wide imaging surveys, by simulating various model galaxy spectra and test their robustnesses using the COSMOS2020 catalog. Galaxies with photometric and/or spectroscopic redshifts $z\sim2$ and low specific star formation rates are successfully selected using these colors. The number density of these fast-quenching galaxy candidates at $z\sim2$ suggests that massive galaxies not so far above the star-formation main sequence at $z=3-4$ should be their progenitors.