We present an overview of a multiwavelength survey of the Shapley Supercluster (SSC; z similar to 0.05) covering a contiguous area of 260 h(70)(-2) Mpc(2) including the supercluster core. The project main aim is to quantify the influence of cluster-scalemass assembly on galaxy evolution in one of the most massive structures in the local Universe. The Shapley Supercluster Survey (ShaSS) includes nine Abell clusters (A3552, A3554, A3556, A3558, A3559, A3560, A3562, AS0724, AS0726) and two poor clusters (SC1327-312, SC1329-313) showing evidence of cluster-cluster interactions. Optical (ugri) and near-infrared (K) imaging acquired with VLT Survey Telescope and Visible and Infrared Survey Telescope for Astronomy allow us to study the galaxy population down to m(star) + 6 at the supercluster redshift. A dedicated spectroscopic survey with AAOmega on the Anglo-Australian Telescope provides a magnitude-limited sample of supercluster members with 80 per cent completeness at similar to m(star) + 3. We derive the galaxy density across the whole area, demonstrating that all structures within this area are embedded in a single network of clusters, groups and filaments. The stellar mass density in the core of the SSC is always higher than 9 x 10(9)M(circle dot) Mpc(-3), which is similar to 40x the cosmic stellar mass density for galaxies in the local Universe. We find a new filamentary structure (similar to 7 Mpc long in projection) connecting the SSC core to the cluster A3559, as well as previously unidentified density peaks. We perform a weak-lensing analysis of the central 1 deg(2) field of the survey obtaining for the central cluster A3558 a mass of M-500 = 7.63(-3.40)(+3.88) x 10(14)M(circle dot), in agreement with X-ray based estimates.
Shapley Supercluster Survey: Galaxy evolution from filaments to cluster cores
Mercurio A;
2015-01-01
Abstract
We present an overview of a multiwavelength survey of the Shapley Supercluster (SSC; z similar to 0.05) covering a contiguous area of 260 h(70)(-2) Mpc(2) including the supercluster core. The project main aim is to quantify the influence of cluster-scalemass assembly on galaxy evolution in one of the most massive structures in the local Universe. The Shapley Supercluster Survey (ShaSS) includes nine Abell clusters (A3552, A3554, A3556, A3558, A3559, A3560, A3562, AS0724, AS0726) and two poor clusters (SC1327-312, SC1329-313) showing evidence of cluster-cluster interactions. Optical (ugri) and near-infrared (K) imaging acquired with VLT Survey Telescope and Visible and Infrared Survey Telescope for Astronomy allow us to study the galaxy population down to m(star) + 6 at the supercluster redshift. A dedicated spectroscopic survey with AAOmega on the Anglo-Australian Telescope provides a magnitude-limited sample of supercluster members with 80 per cent completeness at similar to m(star) + 3. We derive the galaxy density across the whole area, demonstrating that all structures within this area are embedded in a single network of clusters, groups and filaments. The stellar mass density in the core of the SSC is always higher than 9 x 10(9)M(circle dot) Mpc(-3), which is similar to 40x the cosmic stellar mass density for galaxies in the local Universe. We find a new filamentary structure (similar to 7 Mpc long in projection) connecting the SSC core to the cluster A3559, as well as previously unidentified density peaks. We perform a weak-lensing analysis of the central 1 deg(2) field of the survey obtaining for the central cluster A3558 a mass of M-500 = 7.63(-3.40)(+3.88) x 10(14)M(circle dot), in agreement with X-ray based estimates.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.