Extending empirical constraints on the SZ–mass scaling relation to higher redshifts via HST weak lensing measurements of nine clusters from the SPT-SZ survey at z ≳ 1

Author:

Zohren HannahORCID,Schrabback TimORCID,Bocquet SebastianORCID,Sommer Martin,Raihan Fatimah,Hernández-Martín Beatriz,Marggraf OleORCID,Ansarinejad BehzadORCID,Bayliss Matthew B.ORCID,Bleem Lindsey E.ORCID,Erben Thomas,Hoekstra HenkORCID,Floyd BenjaminORCID,Gladders Michael D.,Kleinebreil Florian,McDonald Michael A.,Schirmer MischaORCID,Scognamiglio Diana,Sharon KerenORCID,Wright Angus H.ORCID

Abstract

We present a Hubble Space Telescope (HST) weak gravitational lensing study of nine distant and massive galaxy clusters with redshifts 1.0 ≲ z ≲ 1.7 (zmedian = 1.4) and Sunyaev Zel’dovich (SZ) detection significance ξ > 6.0 from the South Pole Telescope Sunyaev Zel’dovich (SPT-SZ) survey. We measured weak lensing galaxy shapes in HST/ACS F606W and F814W images and used additional observations from HST/WFC3 in F110W and VLT/FORS2 in UHIGH to preferentially select background galaxies at z ≳ 1.8, achieving a high purity. We combined recent redshift estimates from the CANDELS/3D-HST and HUDF fields to infer an improved estimate of the source redshift distribution. We measured weak lensing masses by fitting the tangential reduced shear profiles with spherical Navarro-Frenk-White (NFW) models. We obtained the largest lensing mass in our sample for the cluster SPT-CL J2040−4451, thereby confirming earlier results that suggest a high lensing mass of this cluster compared to X-ray and SZ mass measurements. Combining our weak lensing mass constraints with results obtained by previous studies for lower redshift clusters, we extended the calibration of the scaling relation between the unbiased SZ detection significance ζ and the cluster mass for the SPT-SZ survey out to higher redshifts. We found that the mass scale inferred from our highest redshift bin (1.2 < z < 1.7) is consistent with an extrapolation of constraints derived from lower redshifts, albeit with large statistical uncertainties. Thus, our results show a similar tendency as found in previous studies, where the cluster mass scale derived from the weak lensing data is lower than the mass scale expected in a PlanckνΛCDM (i.e. νΛ cold dark matter) cosmology given the SPT-SZ cluster number counts.

Funder

NASA

German Federal Ministry for Economic Affairs and Climate Action (BMWK) + German Aerospace Centre

German Research Foundation

International Max Planck Research School (IMPRS) for Astronomy and Astrophysics at the Universities of Bonn and Cologne

European Union’s Horizon 2020 research and innovation programme

Netherlands Organization for Scientic Research, Vici grant

European Research Council Consolidator Grant

U.S. Department of Energy, Office of High Energy Physics

National Science Foundation

Publisher

EDP Sciences

Subject

Space and Planetary Science,Astronomy and Astrophysics

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