Intrinsic correlation of galaxy shapes: implications for weak lensing measurements
TL;DR: In this paper, the authors compute the correlation functions of the intrinsic ellipticity of spiral galaxies assuming that the disk is perpendicular to the angular momentum of the dark matter halo, and show that intrinsic correlations are negligible on these scales for dedicated weak lensing surveys.
read more
Abstract: Weak gravitational lensing is now established as a powerful method to measure mass fluctuations in the universe. It relies on the measurement of small coherent distortions of the images of background galaxies. Even low-level correlations in the intrinsic shapes of galaxies could however produce a significant spurious lensing signal. These correlations are also interesting in their own right, since their detection would constrain models of galaxy formation. Using 3 × 10 4 10 5 halos found in N-body simulations, we compute the correlation functions of the intrinsic ellipticity of spiral galaxies assuming that the disk is perpendicular to the angular momentum of the dark matter halo. We also consider a simple model for elliptical galaxies, in which the shape of the dark matter halo is assumed to be the same as that of the light. For deep lensing surveys with median redshifts � 1, we find that intrinsic correlations of � 10 −4 on angular scales � � 0.1 10 ′ are generally below the expected lensing signal, and contribute only a small fraction of the excess signals reported on these scales. On larger scales we find limits to the intrinsic correlation function at a level � 10 −5 , which gives a (model-dependent) range of separations for which the intrinsic signal is about an order of magnitude below the ellipticity correlation function expected from weak lensing. Intrinsic correlations are thus negligible on these scales for dedicated weak lensing surveys. For wider but shallower surveys such as SuperCOSMOS, APM and SDSS, we cannot exclude the possibility that intrinsic correlations could dominate the lensing signal. We discuss how such surveys could be used to calibrate the importance of this effect, as well as study spin-spin correlations of spiral galaxies.
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Cosmological forecast for non-Gaussian statistics in large-scale weak lensing surveys
TL;DR: In this paper, the authors compare the constraining power of three map-based non-Gaussian statistics with the angular power spectrum, namely; peak/minimum counts and Minkowski functionals.
Intrinsic alignment of simulated galaxies in the cosmic web: implications for weak lensing surveys
Sandrine Codis,Raphael Gavazzi,Yohan Dubois,C. Pichon,Karim Benabed,Vincent Desjacques,Dmitry Pogosyan,Julien Devriendt,Adrianne Slyz +8 more
TL;DR: In this article, the intrinsic alignment of galaxy shapes and their cross-correlation with the surrounding dark matter tidal field are investigated using the 160 000, z = 1.2 synthetic galaxies extracted from the high-resolution cosmological hydrodynamical simulation HorizonAGN.
Intrinsic Alignments of Galaxies and Their Effects on Weak-Lensing Detections of Mass Concentrations
TL;DR: In this article, the authors analyzed the number counts of false peaks resulting from intrinsic ellipticities in lensing convergence maps, including the alignment of source galaxies, and showed that a larger value of σ/σ leads to a lower threshold on ν and therefore a larger expected number of false points.
Intrinsic alignments of galaxies in the MassiveBlack-II simulation: Analysis of two-point statistics
Ananth Tenneti,Sukhdeep Singh,Rachel Mandelbaum,Tiziana Di Matteo,Yu Feng,Nishikanta Khandai,Nishikanta Khandai +6 more
TL;DR: The intrinsic alignment of galaxies with the large-scale density field in an important astrophysical contaminant in upcoming weak lensing surveys was studied in this paper, where the effects on galaxy shapes, misalignment of the stellar component with the dark matter shape and two-point statistics of iterative weighted (by mass and luminosity) definitions of the (reduced and unreduced) inertia tensor were assessed.
Intrinsic alignment boosting: Direct measurement of intrinsic alignments in cosmic shear data
TL;DR: In this article, the intrinsic alignment signal is boosted while suppressing the contribution by gravitational lensing, and a relation between this boosting technique and intrinsic alignment removal via nulling is derived.
References
Mapping the dark matter with weak gravitational lensing
Nick Kaiser,Gordon K. Squires +1 more
TL;DR: In this article, the authors considered the problem of reconstructing the projected mass distribution in clusters from coherent distortions of background galaxies, where the ellipticity of a background galaxy provides an estimate of the trace-free components of the tidal field ∂ 2 Φ/∂ θ y ∂θ j where Φ(θ) is the two-dimensional potential generated by the surface density.
931
Detection of weak gravitational lensing distortions of distant galaxies by cosmic dark matter at large scales
TL;DR: The detection of cosmic shear on angular scales of up to half a degree is reported using 145,000 galaxies and along three separate lines of sight and it is found that the dark matter is distributed in a manner consistent with either an open universe, or a flat universe that is dominated by a cosmological constant.
Angular momentum growth in protogalaxies
TL;DR: In this paper, it was shown that the angular momentum of galaxies grows to first order (in proportion to t) during the linear phases of protogalactic evolution, and this result is confirmed in N-body simulations of the formation of structure.
666