Chandra Observations of the Planck ESZ Sample: A Re-Examination of Masses and Mass Proxies

Abstract

Using Chandra observations, we derive the Y X proxy and associated total mass measurement, M500 YX, for 147 clusters with z ≤ 0.35 from the Planck Early Sunyaev-Zel'dovich catalog, and for 80 clusters with z ≤ 0.30 from an X-ray flux-limited sample. We re-extract the Planck Y SZ measurements and obtain the corresponding mass proxy, M500 SZ, from the full Planck mission maps, minimizing the Malmquist bias due to observational scatter. The masses re-extracted using the more precise X-ray position and characteristic size agree with the published PSZ2 values, but yield a significant reduction in the scatter (by a factor of two) in the M500 SZ-M500 X relation. The slope is 0.930.03, and the median ratio, M500 SZ/M500 X= 0.910.01, is within the expectations from known X-ray calibration systematics. The Y SZ/Y X ratio is 0.880.02, in good agreement with predictions from cluster structure, and implying a low level of clumpiness. In agreement with the findings of the Planck Collaboration, the slope of the Y SZ-D A-2 YX flux relation is significantly less than unity (0.890.01). Using extensive simulations, we show that this result is not due to selection effects, intrinsic scatter, or covariance between quantities. We demonstrate analytically that changing the Y SZ-YX relation from apparent flux to intrinsic properties results in a best-fit slope that is closer to unity and increases the dispersion about the relation. The redistribution resulting from this transformation implies that the best fit parameters of the M500 SZ-M500 X relation will be sample-dependent.