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A GALEX/Spitzer survey of the Cl 0016+16 supercluster at z = 0.55: acceleration of the onset of star formation in satellite groups

J. E. GeachDepartment of Physics, McGill University, Ernest Rutherford Building, 3600 Rue University, Montréal, Québec H3A 2T8, CanadaRichard S. EllisDepartment of Astronomy, California Institute of Technology, Pasadena, CA 91125, USAIan SmailInstitute for Computational Cosmology, Durham University, South Road, Durham DH1 3LETim RawleSteward Observatory, University of Arizona, 933 North Cherry Avenue, Tucson, AZ, 85721 USASeán MoranDepartment of Physics and Astronomy, Johns Hopkins University, Baltimore, MD 21218 USA
2011en
ABI

Аннотация

We present the results of a panoramic (15 Mpc scale) survey of the Cl 0016+16 (z= 0.55) supercluster using Spitzer Space Telescope Multiband Infrared Photometer (MIPS) 24-μm and Galaxy Evolution Explorer near-ultraviolet (2500 Å; NUV) imaging. The supercluster regions probed are characterized by several dense nodes connected by a pronounced intermediate-density filamentary structure. We have studied the mid-infrared and NUV properties of potential cluster members within a Δz= 0.1 photometric redshift slice compared to an identical blank field selection. We have two main findings: (i) the star formation rates of individual star-forming galaxies throughout the cluster are not significantly different from identically selected field galaxies, and (ii) the cluster harbours pockets of ‘accelerated’ activity where galaxies have an enhanced probability of undergoing star formation. This observation could be explained in a simple model of ‘pre-processing’ of galaxies during cluster infall: galaxies in satellite groups have an increased chance of having star formation triggered via gravitational tidal interactions compared to their counterparts in the field, but there is no environmental mechanism boosting the individual star formation rates of galaxies. We estimate a lower limit for the total star formation rate of galaxies in the supercluster as ~850 M_⊙ yr^(−1) (field corrected). If this rate is maintained over the typical infall time of a few Gyr, then the infall population could contribute ~1–2 × 10^(12) M_⊙ of stellar mass to the structure.

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