X-ray flux -- mass relation for z 0.7 galaxy clusters

Abstract

We use a subsample of co-detections of the ACT and MaDCoWS cluster catalogs to verify the predicted relation between the observed X-ray flux FX in the 0.5-2~keV band and the cluster mass M 500c for halos at z>0.6-0.7. We modify this relation by introducing a correction coefficient η, which is supposed to encapsulate factors associated with a particular method of flux estimation, the sample selection function, the definition of the cluster mass, etc. We show that the X-ray flux, being the most basic X-ray observable, serves as a convenient and low-cost mass indicator for distant galaxy clusters with photometric or even missing redshifts (by setting z=1) as long as it is known that z 0.6-0.7. The correction coefficient η is ≈ 0.8 if M UPP 500c from the ACT-DR5 catalog are used as cluster masses and η≈ 1.1 if weak-lensing-calibrated masses M Cal 500c are used instead.