Unifying Sunyaev-Zel'dovich and X-ray predictions from clusters to galaxy groups: the impact of X-ray mass estimates on the Y-M scaling relation

Abstract

One of the main limitations in precision cluster cosmology arises from systematic errors and uncertainties in estimating cluster masses. Using the Mock-X pipeline, we produce synthetic X-ray images and derive cluster and galaxy group X-ray properties for a sample of over 30,000 simulated galaxy groups and clusters with M 500crit between 1012 and 2× 1015 M in IllustrisTNG. We explore the similarities and differences between IllustrisTNG predictions of the Sunyaev-Zel'dovich and X-ray scaling relations with mass. We find a median hydrostatic mass bias b = 0.125 0.003 for M 500crit >1013 M. The bias increases to b = 0.17 0.004 when masses are derived from synthetic X-ray observations. We model how different underlying assumptions about the dependence of Y X on halo mass can generate biases in the observed Y SZ - MY X scaling relation. In particular, the simplifying assumption that Y X - M tot is self-similar at all mass scales largely hides the break in Y SZ - M tot and overestimates Y SZ at galaxy and groups scales. We show that calibrating the Y X-mass proxy using a new model for a smoothly broken power law reproduces the true underlying Y SZ - M tot scaling relation with high accuracy. Moreover, MY X estimates calibrated with this method lead to Y SZ - MY X predictions that are not biased by the presence of lower mass clusters or galaxy groups in the sample. Finally, we show that our smoothly broken power law model provides a robust way to derive the Y X-mass proxy, significantly reducing the level of mass bias for clusters, groups, and galaxies.

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