Performance of internal covariance estimators for cosmic shear correlation functions

Data re-sampling methods such as the delete-one jackknife are a common tool for estimating the covariance of large scale structure probes. In this paper we investigate the concepts of internal covariance estimation in the context of cosmic shear two-point statistics. We demonstrate how to use log-no...

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Veröffentlicht in:	Monthly notices of the Royal Astronomical Society 2015-12, Vol.456 (3)
Hauptverfasser:	Friedrich, O., Seitz, S., Eifler, T. F., Gruen, D.
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Sprache:	eng
Schlagworte:	angular correlation function ASTRONOMY AND ASTROPHYSICS cosmic shear cosmological parameters covariance jackknife large-scale structure of Universe methods: data analysis methods: statistical
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description	Data re-sampling methods such as the delete-one jackknife are a common tool for estimating the covariance of large scale structure probes. In this paper we investigate the concepts of internal covariance estimation in the context of cosmic shear two-point statistics. We demonstrate how to use log-normal simulations of the convergence field and the corresponding shear field to carry out realistic tests of internal covariance estimators and find that most estimators such as jackknife or sub-sample covariance can reach a satisfactory compromise between bias and variance of the estimated covariance. In a forecast for the complete, 5-year DES survey we show that internally estimated covariance matrices can provide a large fraction of the true uncertainties on cosmological parameters in a 2D cosmic shear analysis. The volume inside contours of constant likelihood in the $\Omega_m$-$\sigma_8$ plane as measured with internally estimated covariance matrices is on average $\gtrsim 85\%$ of the volume derived from the true covariance matrix. The uncertainty on the parameter combination $\Sigma_8 \sim \sigma_8 \Omega_m^{0.5}$ derived from internally estimated covariances is $\sim 90\%$ of the true uncertainty.
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F.</creatorcontrib><creatorcontrib>Gruen, D.</creatorcontrib><creatorcontrib>Fermi National Accelerator Lab. (FNAL), Batavia, IL (United States)</creatorcontrib><title>Performance of internal covariance estimators for cosmic shear correlation functions</title><title>Monthly notices of the Royal Astronomical Society</title><description>Data re-sampling methods such as the delete-one jackknife are a common tool for estimating the covariance of large scale structure probes. In this paper we investigate the concepts of internal covariance estimation in the context of cosmic shear two-point statistics. We demonstrate how to use log-normal simulations of the convergence field and the corresponding shear field to carry out realistic tests of internal covariance estimators and find that most estimators such as jackknife or sub-sample covariance can reach a satisfactory compromise between bias and variance of the estimated covariance. 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The uncertainty on the parameter combination $\Sigma_8 \sim \sigma_8 \Omega_m^{0.5}$ derived from internally estimated covariances is $\sim 90\%$ of the true uncertainty.</description><subject>angular correlation function</subject><subject>ASTRONOMY AND ASTROPHYSICS</subject><subject>cosmic shear</subject><subject>cosmological parameters</subject><subject>covariance</subject><subject>jackknife</subject><subject>large-scale structure of Universe</subject><subject>methods: data analysis</subject><subject>methods: statistical</subject><issn>0035-8711</issn><issn>1365-2966</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2015</creationdate><recordtype>article</recordtype><recordid>eNqNjE0KwjAQhYMoWKt3CO4LSdPEuhbFpYvuSxgmNNImkIme31Y8gKv39_FWrJDK6Ko-G7NmhRBKV-1Jyi3bET2FEI2qTcG6ByYX02QDII-O-5AxBTtyiG-b_LdGyn6yOSbiMzovNHngNKBdQko42uxj4O4VYDG0ZxtnR8LDT0t2vF27y72K81NP4DPCADEEhNzLWjdSt-ov6AOhK0Lc</recordid><startdate>20151231</startdate><enddate>20151231</enddate><creator>Friedrich, O.</creator><creator>Seitz, S.</creator><creator>Eifler, T. 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In this paper we investigate the concepts of internal covariance estimation in the context of cosmic shear two-point statistics. We demonstrate how to use log-normal simulations of the convergence field and the corresponding shear field to carry out realistic tests of internal covariance estimators and find that most estimators such as jackknife or sub-sample covariance can reach a satisfactory compromise between bias and variance of the estimated covariance. In a forecast for the complete, 5-year DES survey we show that internally estimated covariance matrices can provide a large fraction of the true uncertainties on cosmological parameters in a 2D cosmic shear analysis. The volume inside contours of constant likelihood in the $\Omega_m$-$\sigma_8$ plane as measured with internally estimated covariance matrices is on average $\gtrsim 85\%$ of the volume derived from the true covariance matrix. 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subjects	angular correlation function ASTRONOMY AND ASTROPHYSICS cosmic shear cosmological parameters covariance jackknife large-scale structure of Universe methods: data analysis methods: statistical
title	Performance of internal covariance estimators for cosmic shear correlation functions
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