Document 
-
Articles citing this article
- Same authors
-
Related articles
- Recommend this article
- Download citation
- Alert me when this article is cited
- Alert me when this article is corrected
BibSonomy
CiteUlike
Connotea
Del.icio.us
Digg
Facebook
A&A 382, 804-820 (2002)
DOI: 10.1051/0004-6361:20011708
The new emerging model for the structure of cooling cores in clusters of galaxies
H. Böhringer1, K. Matsushita1, E. Churazov2, Y. Ikebe1 and Y. Chen11 Max-Planck-Institut für Extraterrestrische Physik, 85748 Garching, Germany
2 Max-Planck-Institut für Astrophysik, 85748 Garching, Germany
(Received 22 August 2001 / Accepted 7 November 2001 )
Abstract
New X-ray observations with XMM-Newton show a lack of spectral evidence
for large amounts of cooling and condensing gas in the centers of
galaxy clusters believed to harbour strong cooling flows.
This paper re-explores the cooling flow scenario in the light of the new
observations. We explore the diagnostics of the temperature structure
of cooling cores with XMM-spectroscopy, tests for intracluster X-ray
absorption towards central AGN, the effect of metal abundance inhomogeneities,
and the implications of high resolution images in the centers of clusters.
We find no evidence of intrinsic absorption in the center of the
cooling flows of M 87 and the Perseus cluster. We further
consider the effect of cluster rotation in cooling flow regions in
the frame of cosmic structure evolution models.
Also, the heating of the core regions of clusters by jets from a central
AGN is reconsidered. We find that the power of the AGN jets as
estimated by their interaction effects with the intracluster medium
in several examples is more then sufficient to heat the cooling flows
and to reduce the mass deposition rates. We explore in more detail which
requirements such a heating model has to fulfill to be consistent
with all observations, point out the way such a model could be
constructed, and argue that such model building seems to be successful.
In summary, it is argued that most observational
evidence points towards much lower mass deposition rates
than previously inferred in the central
region of clusters thought to contain strong cooling flows.
Key words: galaxies: clusters: general -- X-rays: galaxies: clusters
Offprint request: H. Böhringer, hxb@mpe.mpg.de
SIMBAD Objects
© ESO 2002
| What is OpenURL? |
