Detailed SZ study of 19 LoCuSS galaxy clusters: masses and temperatures out to the virial radius

Abstract

We present 16-GHz AMI SZ observations of 19 clusters with LX >7x1037 W (h50=1) selected from the LoCuS survey (0.142<z<0.295) and of A1758b, in the FoV of A1758a. We detect 17 clusters with 5-23sigma peak surface brightnesses. Cluster parameters are obtained using a Bayesian cluster analysis. We fit isothermal beta-models to our data and assume the clusters are virialized (with all the kinetic energy in gas internal energy). Our gas temperature, TAMI, is derived from AMI SZ data, not from X-ray spectroscopy. Cluster parameters internal to r500 are derived assuming HSE. We find: (i) Different gNFW parameterizations yield significantly different parameter degeneracies. (ii) For h70 = 1, we find the virial radius r200 to be typically 1.6+/-0.1 Mpc and the total mass MT(r200) typically to be 2.0-2.5xMT(r500).(iii) Where we have found MT X-ray (X) and weak-lensing (WL) values in the literature, there is good agreement between WL and AMI estimates (with MT,AMI/MT,WL =1.2+0.2-0.3 and =1.0+/-0.1 for r500 and r200, respectively). In comparison, most Suzaku/Chandra estimates are higher than for AMI (with MT,X/MT,AMI=1.7+/-0.2 within r500), particularly for the stronger mergers.(iv) Comparison of TAMI to TX sheds light on high X-ray masses: even at large r, TX can substantially exceed TAMI in mergers. The use of these higher TX values will give higher X-ray masses. We stress that large-r TSZ and TX data are scarce and must be increased. (v) Despite the paucity of data, there is an indication of a relation between merger activity and SZ ellipticity. (vi) At small radius (but away from any cooling flow) the SZ signal (and TAMI) is less sensitive to ICM disturbance than the X-ray signal (and TX) and, even at high r, mergers affect n2-weighted X-ray data more than n-weighted SZ, implying significant shocking or clumping or both occur even in the outer parts of mergers.