The Ysz--Yx Scaling Relation as Determined from Planck and Chandra

Abstract

SZ clusters surveys like Planck, the South Pole Telescope, and the Atacama Cosmology Telescope, will soon be publishing several hundred SZ-selected systems. The key ingredient required to transport the mass calibration from current X-ray selected cluster samples to these SZ systems is the Ysz--Yx scaling relation. We constrain the amplitude, slope, and scatter of the Ysz--Yx scaling relation using SZ data from Planck, and X-ray data from Chandra. We find a best fit amplitude of (DA2/CYX) = -0.202 0.024 at the pivot point CYX=8× 10-5 Mpc2. This corresponds to a Ysz/Yx-ratio of 0.82 0.024, in good agreement with X-ray expectations after including the effects of gas clumping. The slope of the relation is α=0.916 0.032, consistent with unity at ≈ 2.3σ. We are unable to detect intrinsic scatter, and find no evidence that the scaling relation depends on cluster dynamical state.