CFHTLenS tomographic weak lensing: quantifying accurate redshift distributions

Jonathan Benjamin , Ludovic Van Waerbeke , Catherine Heymans , Jonathan Benjamin , Ludovic Van Waerbeke , Catherine Heymans , M. Kilbinger , T. Erben , H. Hildebrandt , Henk Hoekstra , Thomas Kitching , Y. Mellier , L. Miller , Barnaby Rowe , T. Schrabback , Fergus Simpson , Jean Coupon , Liping Fu , Joachim Harnois-Déraps , Michael J. Hudson , Konrad Kuijken , E. Semboloni , Sanaz Vafaei , M. Velander
2013 Monthly Notices of the Royal Astronomical Society 125 citations

Abstract

The Canada–France–Hawaii Telescope Lensing Survey (CFHTLenS) comprises deep multicolour (u^*g′r′i′z′) photometry spanning 154 deg^2, with accurate photometric redshifts and shape measurements. We demonstrate that the redshift probability distribution function summed over galaxies provides an accurate representation of the galaxy redshift distribution accounting for random and catastrophic errors for galaxies with best-fitting photometric redshifts z_p < 1.3.
\nWe present cosmological constraints using tomographic weak gravitational lensing by large-scale structure. We use two broad redshift bins 0.5 < z_p ≤ 0.85 and 0.85 < z_p ≤ 1.3 free of intrinsic alignment contamination, and measure the shear correlation function on angular scales in the range ∼1–40 arcmin. We show that the problematic redshift scaling of the shear signal, found in previous Canada–France–Hawaii Telescope Legacy Survey data analyses, does not affect the CFHTLenS data. For a flat Λ cold dark matter model and a fixed matter density Ω_m = 0.27, we find the normalization of the matter power spectrum σ_8 = 0.771 ± 0.041. When combined with cosmic microwave background data (Wilkinson Microwave Anisotropy Probe 7-year results), baryon acoustic oscillation data (BOSS) and a prior on the Hubble constant from the Hubble Space Telescope distance ladder, we find that CFHTLenS improves the precision of the fully marginalized parameter estimates by an average factor of 1.5-2. Combining our results with the above cosmological probes, we find Ω_m = 0.2762 ± 0.0074 and σ_8 = 0.802 ± 0.013.

Keywords

PhysicsAstrophysicsRedshiftWeak gravitational lensingGalaxyPhotometric redshiftDark matterCosmic microwave backgroundOmegaSpectral densityHubble's lawGravitational lensSigmaAstronomyStatisticsOptics

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Year
2013
Type
article
Volume
431
Issue
2
Pages
1547-1564
Citations
125
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Jonathan Benjamin, Ludovic Van Waerbeke, Catherine Heymans et al. (2013). CFHTLenS tomographic weak lensing: quantifying accurate redshift distributions. Monthly Notices of the Royal Astronomical Society , 431 (2) , 1547-1564. https://doi.org/10.1093/mnras/stt276

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DOI
10.1093/mnras/stt276