Tomographic measurement of the intergalactic gas pressure through galaxy–tSZ cross-correlations
Monthly Notices of the Royal Astronomical Society Oxford University Press 491:4 (2019) 5464-5480
Abstract:
We cross-correlate maps of the thermal Sunyaev–Zeldovich (tSZ) Compton-y parameter published by Planck with the projected distribution of galaxies in a set of low-redshift tomographic bins. We use the nearly full-sky 2MASS Photometric Redshift and WISE × SuperCOSMOS public catalogues, covering the redshift range z ≲ 0.4. Our measurements allow us to place constraints on the redshift dependence of the mass–observable relation for tSZ cluster count analyses in terms of the so-called hydrostatic mass bias parameter 1−bH. These results can also be interpreted as measurements of the bias-weighted average gas pressure 〈bPe〉 as a function of redshift, a quantity that can be related to the thermodynamics of gas inside haloes and used to constrain energy injection processes. We measure 1−bH with ∼13 per cent precision in six equispaced redshift bins, and find no evidence for a redshift-dependent mass bias parameter, in agreement with previous analyses. Our mean value of 1−bH=0.59±0.03 is also in good agreement with the one estimated by the joint analysis of Planck cluster counts and cosmic microwave background anisotropies. Our measurements of 〈bPe〉, at the level of ∼10 per cent in each bin, are the most stringent constraints on the redshift dependence of this parameter to date, and agree well both with previous measurements and with theoretical expectations from shock-heating models.Tomographic galaxy clustering with the Subaru Hyper Suprime-Cam first year public data release
(2019)
Testing self-interacting dark matter with galaxy warps
Physical Review D American Physical Society 100:12 (2019) 123006
Testing self-interacting dark matter with galaxy warps
PHYSICAL REVIEW D 100:12 (2019) ARTN 123006
Sheer shear: weak lensing with one mode
The Open Journal of Astrophysics The Open Journal 2:1 (2019)