Intrinsic and extrinsic galaxy alignment

We show with analytic models that the assumption of uncorrelated intrinsic ellipticities of target sources that is usually made in searches for weak gravitational lensing arising from large-scale mass inhomogeneities (‘field lensing’) is unwarranted. If the orientation of the galaxy image is determi...

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Veröffentlicht in:	Monthly notices of the Royal Astronomical Society 2001-01, Vol.320 (1), p.L7-L13
Hauptverfasser:	Catelan, Paolo, Kamionkowski, Marc, Blandford, Roger D.
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Sprache:	eng
Schlagworte:	cosmology: theory gravitational lensing large-scale structure of Universe
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creator	Catelan, Paolo Kamionkowski, Marc Blandford, Roger D.
description	We show with analytic models that the assumption of uncorrelated intrinsic ellipticities of target sources that is usually made in searches for weak gravitational lensing arising from large-scale mass inhomogeneities (‘field lensing’) is unwarranted. If the orientation of the galaxy image is determined either by the angular momentum or by the shape of the halo in which it forms, then the image should be aligned preferentially with the component of the tidal gravitational field perpendicular to the line of sight. Long-range correlations in the tidal field will thus lead to long-range ellipticity–ellipticity correlations that mimic the shear correlations arising from weak gravitational lensing. We calculate the ellipticity–ellipticity correlation expected if halo shapes determine the observed galaxy shape, and we discuss uncertainties (which are still considerable) in the predicted amplitude of this correlation. The ellipticity–ellipticity correlation induced by angular momenta should be smaller. We consider several methods for discriminating between the weak-lensing (extrinsic) and intrinsic correlations, including the use of redshift information. An ellipticity–tidal-field correlation also implies the existence of an alignment of images of galaxies near clusters. Although the intrinsic alignment may complicate the interpretation of field-lensing results, it is inherently interesting as it may shed light on galaxy formation as well as on structure formation.
doi_str_mv	10.1046/j.1365-8711.2001.04105.x
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subjects	cosmology: theory gravitational lensing large-scale structure of Universe
title	Intrinsic and extrinsic galaxy alignment
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