Improvements in the X-ray luminosity function and constraints on the Cosmological parameters from X-ray luminous clusters

Abstract

We show how to improve constraints on m, σ8, and the dark-energy equation-of-state parameter, w, obtained by Mantz et al. (2008) from measurements of the X-ray luminosity function of galaxy clusters, namely MACS, the local BCS and the REFLEX galaxy cluster samples with luminosities L> 3 × 1044 erg/s in the 0.1--2.4 keV band. To this aim, we use Tinker et al. (2008) mass function instead of Jenkins et al. (2001) and the M-L relationship obtained from Del Popolo (2002) and Del Popolo et al. (2005). Using the same methods and priors of Mantz et al. (2008), we find, for a universe, m=0.28+0.05-0.04 and σ8=0.78+0.04-0.05 while the result of Mantz et al. (2008) gives less tight constraints m=0.28+0.11-0.07 and σ8=0.78+0.11-0.13. In the case of a wCDM model, we find m=0.27+0.07-0.06, σ8=0.81+0.05-0.06 and w=-1.3+0.3-0.4, while in Mantz et al. (2008) they are again less tight m=0.24+0.15-0.07, σ8=0.85+0.13-0.20 and w=-1.4+0.4-0.7. Combining the XLF analysis with the fgas+CMB+SNIa data set results in the constraint m=0.269 0.012, σ8=0.81 0.021 and w=-1.02 0.04, to be compared with Mantz et al. (2008), m=0.269 0.016, σ8=0.82 0.03 and w=-1.02 0.06. The tightness of the last constraints obtained by Mantz et al. (2008), are fundamentally due to the tightness of the fgas+CMB+SNIa constraints and not to their XLF analysis. Our findings, consistent with w=-1, lend additional support to the cosmological-constant model.