Ecke Ecke

Max-Planck-Institut für extraterrestrische Physik

High-Energy Astrophysics

Research Topic


  Verweis MPE   Verweis High-Energy Astrophysics   Verweis Research Topics   Verweis X-ray Background   pointer COSMOS Survey  
High-Energy Astrophysics


Recent Results and News

Research Topics



MPI Halbleiterlabor

(restricted access)

Astronomy Resources

MPE Web Site


Valid HTML 4.01!

The Evolution of the cosmic web: XMM-Newton COSMOS Survey

The Deep XMM-Newton COSMOS survey will homogeneously cover the 2 deg2 contiguous area of the Cosmos field to a sensitivity level of 5 x 10**(-16) erg/s/cm2 in the 0.5-2.0 keV energy band, which is a factor of two fainter compared to the deepest surveys performed with the ROSAT satellite. As of October 2004, we have collected six XMM-Newton pointings with exposure times of 30 ksec each covering a 0.8 deg2 area. We have detected 522 new X-ray sources so far. The remaining 19 XMM-Newton pointings will be taken by the end of 2004.

The Cosmos field has already a superb multiwavelength coverage from Radio to X-rays (e.g., GALEX, HST ACS I_814 and deep Subaru BVriz images). Major redshift surveys with the VLT VIMOS and with the Magellan IMACS instruments are proposed to provide redshift for more than 40000 galaxies with 0.3 < z <2.5, for ~1000 Far-UV (Galex) sources, and up to 3000 X-ray sources. The first optical spectroscopy is already accumulated with VIMOS at the VLT in May 2004.

The XMM-Newton observations are very efficient in localizing and identifying active galactic nuclei (AGN) and distant clusters of galaxies. We expect to obtain about 2000 spectroscopically confirmed obscured and un-obscured AGN/quasars and about 100 clusters of galaxies (z>0.3). One of the primary goals of the XMM-Newton/Cosmos survey is to study the co-evolution of galaxies and their central supermassive black holes out to high redshift. Further we can study the formation and evolution of supermassive black holes, the evolution of the spatial distribution amd the correlation with galaxy morphology and evolution.

Fig 1: Left: IRAS 100 Ám map of the Cosmos region overlaid with the XMM-Newton pointing pattern. The marked pointings have been obtained until October 2004. Right: XMM-Newton EPIC colour image combining the already existing six pointings with the PN and MOS cameras for Cosmos field. Red, green, and blue correspond to the 0.5-2.0, 2.0-4.5, and 4.5-10.0 keV energy bands, respectively.

The four main characteristics of the XMM/COSMOS survey are:
  • Medium sensitivity XMM-Newton Survey
  • Deep ACS imaging
  • A large field (2 square degree)
  • A wealth of multi-wavelength data

Papers from this work:

  • The COSMOS/XMM-Newton Survey,
    Hasinger et al.,
    2005, ApJ Special Edition,in prep.

(Original author: Ingo Lehmann, Date: 10/11/2004)

top of page top of page

Last update: 2010-02-02 by   linkH. Steinle
Contact person:   linkM. Brusa   and   linkN. Cappelluti
up © Max-Planck-Institut für extraterrestrische Physik