F. Combes, the PHIBSS collaboration
Published 2015-10-14Version 1
The cosmic star formation rate density first increases with time towards a pronounced peak 10 Gyrs ago (or z=1-2) and then slows down, dropping by more than a factor 10 since z=1. The processes at the origin of the star formation quenching are not yet well identified, either the gas is expelled by supernovae and AGN feedback, or prevented to inflow. Morphological transformation or environment effects are also invoked. Recent IRAM/NOEMA and ALMA results are reviewed about the molecular content of galaxies and its dynamics, as a function of redshift. Along the main sequence of massive star forming galaxies, the gas fraction was higher in the past (up to 80\%), and galaxy disks were more unstable and more turbulent. The star formation efficiency increases with redshift, or equivalently the depletion time decreases, whatever the position of galaxies, either on the main sequence or above. Attempts have been made to determine the cosmic evolution of the H_2 density, but deeper ALMA observations are needed to effectively compare with models.
Comments: 7 pages, 4 figures, Proceedings of IAUS315, "From interstellar clouds to star-forming galaxies: universal processes?", P. Jablonka, P. Andre & F. van der Tak, eds. (CUP)
The star-formation activity of IllustrisTNG galaxies: main sequence, UVJ diagram, quenched fractions, and systematics
The far infra-red SEDs of main sequence and starburst galaxies
Dark-ages Reionization and Galaxy Formation Simulation - XIX: Predictions of infrared excess and cosmic star formation rate density from UV observations
![QR code for arXiv:1510.03977 [astro-ph.GA]](http://oss.arxitics.com/images/favicon.svg)