SIMBAD references

2015A&A...582A..79I - Astronomy and Astrophysics, volume 582A, 79-79 (2015/10-1)

X-ray galaxy clusters abundance and mass temperature scaling.

ILIC S., BLANCHARD A. and DOUSPIS M.

Abstract (from CDS):

The abundance of clusters of galaxies is known to be a potential source of cosmological constraints through their mass function. In the present work, we examine the information that can be obtained from the temperature distribution function of X-ray clusters. For this purpose, the mass-temperature (M-T) relation and its statistical properties are critical ingredients. Using a combination of cosmic microwave background (CMB) data from Planck and our estimations of X-ray cluster abundances, we use Markov chain Monte Carlo (MCMC) techniques to estimate the ΛCDM cosmological parameters and the mass to X-ray temperature scaling relation simultaneously. We determine the integrated X-ray temperature function of local clusters using flux-limited surveys. A local comprehensive sample was build from the BAX X-ray cluster database, allowing us to estimate the local temperature distribution function above ∼1keV. We model the expected temperature function from the mass function and the M-T scaling relation. We then estimate the cosmological parameters and the parameters of the M-T relation (calibration and slope) simultaneously. The measured temperature function of local clusters in the range ∼1-10keV is well reproduced once the calibration of the M-T relation is treated as a free parameter, and therefore is self-consistent with respect to the ΛCDM cosmology. The best-fit values of the standard cosmological parameters as well as their uncertainties are unchanged by the addition of clusters data. The calibration of the mass temperature relation, as well as its slope, are determined with ∼10% statistical uncertainties. This calibration leads to masses that are ∼75% larger than X-ray masses used in Planck.

Abstract Copyright:

Journal keyword(s): galaxies: clusters: general - large-scale structure of Universe - cosmological parameters - cosmic background radiation

CDS comments: Table 1 NGC 4343 GROUP is a probable misprint for NGC 4636 GROUP.

Simbad objects: 73

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2019.12.12-12:25:43

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