期刊
ASTRONOMY & ASTROPHYSICS
卷 521, 期 -, 页码 -出版社
EDP SCIENCES S A
DOI: 10.1051/0004-6361/201015208
关键词
X-rays: galaxies: clusters; galaxies: clusters: interacluster medium; galaxies: high-redshift
资金
- DFG cluster of excellence Origin and Structure of the Universe
- [ASI-INAF I/088/06/0]
- [INFN PD51]
Context. Cool-core clusters are characterized by strong surface brightness peaks in the X-ray emission from the Intra Cluster Medium (ICM). This phenomenon is associated with complex physics in the ICM and has been a subject of intense debate and investigation in recent years. The evolution of cool-cores is still poorly constrained because of the small sample statistics and the observational challenge of analysing high redshift clusters. Aims. In order to quantify the evolution in the cool-core cluster population, we robustly measure the cool-core strength in a local, representative cluster sample, and in the largest sample of high-redshift clusters available to date. Methods. We use high-resolution Chandra data of three representative cluster samples spanning different redshift ranges: (i) the low redshift sample from the 400 Square degree (SD) survey with median < z > = 0.08; (ii) the high redshift sample from the 400 SD Survey with median < z > = 0.59; and (iii) 15 clusters drawn from the Rosat Distant Cluster Survey and the Wide Angle Rosat Pointed Survey, with median < z > = 0.83. Our analysis is based on the measurement of the surface brightness concentration, cSB (Santos et al. 2008, A&A, 483, 35), which allows us to characterize the cool-core strength in low signal-to-noise data. We also obtain gas density profiles to derive cluster central cooling times and entropy. In addition to the X-ray analysis, we search for radio counterparts associated with the cluster cores. Results. We find a statistically significant difference in the cSB distributions of the two high-z samples, pointing towards a lack of concentrated clusters in the 400 SD high-z sample. Taking this into account, we confirm a negative evolution in the fraction of cool-core clusters with redshift, in particular for very strong cool-cores. This result is validated by the central entropy and central cooling time, which show strong anti-correlations with cSB. However, the amount of evolution is significantly smaller than previously claimed, leaving room for a large population of well formed cool-cores at z similar to 1. Finally, we explore the potential of the proposed X-ray mission Wide Field X-ray Telescope to detect and quantify cool-cores up to z = 1.5.
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