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Auteurs principaux: Abeele, Enya Van den, Astier, Pierre, Niemiec, Anna
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2411.10594
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author Abeele, Enya Van den
Astier, Pierre
Niemiec, Anna
author_facet Abeele, Enya Van den
Astier, Pierre
Niemiec, Anna
contents Since cosmic shear was first observed in 2000, it has become a key cosmological probe and promises to deliver exquisite dark energy constraints. However, shear is inferred from coherent distortions of galaxy shapes, and the relation between galaxy ellipticities and gravitational shear is a serious potential source of bias. To address this, we are developing a shear estimation method that makes no assumption on galaxy shapes, in order to avoid the shortcomings of a simulation-based shear calibration. Our method relies on the estimation of second moments on the image, and the evaluation of how second moments respond to a shear applied to the coordinate system, without altering the image itself, at variance with the Metacalibration method. We also evaluate analytically the noise bias due to the non-linearity of the estimator, and confront it with the bias derived from noisy image simulations, which allows a fast and precise noise bias correction.
format Preprint
id arxiv_https___arxiv_org_abs_2411_10594
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Development of an unbiased cosmic shear estimator measured on galaxy images
Abeele, Enya Van den
Astier, Pierre
Niemiec, Anna
Cosmology and Nongalactic Astrophysics
Since cosmic shear was first observed in 2000, it has become a key cosmological probe and promises to deliver exquisite dark energy constraints. However, shear is inferred from coherent distortions of galaxy shapes, and the relation between galaxy ellipticities and gravitational shear is a serious potential source of bias. To address this, we are developing a shear estimation method that makes no assumption on galaxy shapes, in order to avoid the shortcomings of a simulation-based shear calibration. Our method relies on the estimation of second moments on the image, and the evaluation of how second moments respond to a shear applied to the coordinate system, without altering the image itself, at variance with the Metacalibration method. We also evaluate analytically the noise bias due to the non-linearity of the estimator, and confront it with the bias derived from noisy image simulations, which allows a fast and precise noise bias correction.
title Development of an unbiased cosmic shear estimator measured on galaxy images
topic Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2411.10594