http://arxiv.org/abs/1706.08356
We use a cluster sample selected independently of the intracluster medium content with reliable masses to measure the mean gas mass fraction, its scatter, the biases of the X-ray selection on gas mass fraction and covariance between X-ray luminosity and gas mass. The sample is formed by 34 galaxy clusters in the nearby ($0.050<z<0.135$) Universe, mostly with $14<\log M_{500}/M_\odot \lesssim 14.5$, and with masses calculated with the caustic technique. First, we found that integrated gas density profiles have similar shapes, extending earlier results based on sub-populations of clusters such as relaxed or X-ray bright for their mass. Second, the X-ray unbiased selection of our sample allows us to unveil a variegate population of clusters: the gas mass fraction shows a scatter of $0.17\pm0.04$ dex, possibly indicating a quite variable amount of feedback from cluster to cluster, larger than found in previous samples targeting sub-populations of galaxy clusters, such as relaxed or X-ray bright. The similarity of the gas density profiles induces an almost scatter-less relation between X-ray luminosity, gas mass and halo mass, and modulates selection effects on the halo gas mass fraction: gas-rich clusters are preferentially included in X-ray selected samples. The almost scatter-less relation also fixes the relative scatters and slopes of the $L_X-M$ and $M_{gas}-M$ relations and makes core-excised X-ray luminosities and gas masses fully covariant. Therefore, cosmological or astrophysical studies involving X-ray or SZ selected samples need to account for both selection effects and covariance of the studied quantities with X-ray luminosity/SZ strenght.
S. Andreon, J. Wang, G. Trinchieri, et. al.
Tue, 27 Jun 17
58/58
Comments: A&A, waiting for the second referee report
You must be logged in to post a comment.