Stars, gas, and star formation of distant post-starburst galaxies

Abstract

We present a comprehensive multi-wavelength study of 5 poststarburst galaxies with M > 1011 M at z 0.7, examining their stars, gas, and current and past star-formation activities. Using optical images from the Subaru telescope and Hubble Space Telescope, we observe a high incidence of companion galaxies and low surface brightness tidal features, indicating that quenching is closely related to interactions between galaxies. From optical spectra provided by the LEGA-C survey, we model the stellar continuum to derive the star-formation histories and show that the stellar masses of progenitors ranging from 2×109 M to 1011 M, undergoing a burst of star formation several hundred million years prior to observation, with a decay time scale of 100 million years. Our ALMA observations detect CO(2-1) emission in four galaxies, with the molecular gas spreading over up to >1", or 10 kpc, with a mass of up to 2 ×1010 M. However, star-forming regions are unresolved by either the slit spectra or 3~GHz continuum observed by the Very Large Array. Comparisons between the star-formation rates and gas masses, and the sizes of CO emission and star-forming regions suggest a low star-forming efficiency. We show that the star-formation rates derived from IR and radio luminosities with commonly-used calibrations tend to overestimate the true values because of the prodigious amount of radiation from old stars and the contribution from AGN, as the optical spectra reveal weak AGN-driven outflows.