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Galaxy environment in the 3D-HST fields. Witnessing the onset of satellite quenching at z ~ 1-2

Authors :
Fossati, M.
Wilman, D. J.
Mendel, J. T.
Saglia, R. P.
Galametz, A.
Beifiori, A.
Bender, R.
Chan, J. C. C.
Fabricius, M.
Bandara, K.
Brammer, G. B.
Davies, R.
Schreiber, N. M. Förster
Genzel, R.
Hartley, W.
Kulkarni, S. K.
Lang, P.
Momcheva, I. G.
Nelson, E. J.
Skelton, R.
Tacconi, L. J.
Tadaki, K.
Übler, H.
van Dokkum, P. G.
Wisnioski, E.
Whitaker, K. E.
Wuyts, E.
Wuyts, S.
Fossati, M.
Wilman, D. J.
Mendel, J. T.
Saglia, R. P.
Galametz, A.
Beifiori, A.
Bender, R.
Chan, J. C. C.
Fabricius, M.
Bandara, K.
Brammer, G. B.
Davies, R.
Schreiber, N. M. Förster
Genzel, R.
Hartley, W.
Kulkarni, S. K.
Lang, P.
Momcheva, I. G.
Nelson, E. J.
Skelton, R.
Tacconi, L. J.
Tadaki, K.
Übler, H.
van Dokkum, P. G.
Wisnioski, E.
Whitaker, K. E.
Wuyts, E.
Wuyts, S.
Publication Year :
2016

Abstract

We make publicly available a catalog of calibrated environmental measures for galaxies in the five 3D-HST/CANDELS deep fields. Leveraging the spectroscopic and grism redshifts from the 3D-HST survey, multi wavelength photometry from CANDELS, and wider field public data for edge corrections, we derive densities in fixed apertures to characterize the environment of galaxies brighter than $JH_{140} < 24$ mag in the redshift range $0.5<z<3.0$. By linking observed galaxies to a mock sample, selected to reproduce the 3D-HST sample selection and redshift accuracy, each 3D-HST galaxy is assigned a probability density function of the host halo mass, and a probability that is a central or a satellite galaxy. The same procedure is applied to a $z=0$ sample selected from SDSS. We compute the fraction of passive central and satellite galaxies as a function of stellar and halo mass, and redshift, and then derive the fraction of galaxies that were quenched by environment specific processes. Using the mock sample, we estimate that the timescale for satellite quenching is $t_{\rm quench} \sim 2-5$ Gyr; longer at lower stellar mass or lower redshift, but remarkably independent of halo mass. This indicates that, in the range of environments commonly found within the 3D-HST sample, satellites are quenched by exhaustion of their gas reservoir in absence of cosmological accretion. We find that the quenching times can be separated into a delay phase during which satellite galaxies behave similarly to centrals at fixed stellar mass, and a phase where the star formation rate drops rapidly ($\sim 0.4-0.6$ Gyr), as shown previously at $z=0$. We conclude that this scenario requires satellite galaxies to retain a large reservoir of multi-phase gas upon accretion, even at high redshift, and that this gas sustains star formation for the long quenching times observed.<br />Comment: 35 pages, 29 figures, 2 tables. Accepted for publication in ApJ. The catalogue of environmental measures is available at: http://dx.doi.org/10.5281/zenodo.168056

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1098111580
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.3847.1538-4357.835.2.153