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Non-Linear Matter Power Spectrum Covariance Matrix Errors and Cosmological Parameter Uncertainties

Authors :
Blot, Linda
Corasaniti, Pier Stefano
Amendola, Luca
Kitching, Thomas D.
Source :
MNRAS 458, 4462-4470 (2016)
Publication Year :
2015

Abstract

The covariance matrix of the matter power spectrum is a key element of the statistical analysis of galaxy clustering data. Independent realisations of observational measurements can be used to sample the covariance, nevertheless statistical sampling errors will propagate into the cosmological parameter inference potentially limiting the capabilities of the upcoming generation of galaxy surveys. The impact of these errors as function of the number of independent realisations has been previously evaluated for Gaussian distributed data. However, non-linearities in the late time clustering of matter cause departures from Gaussian statistics. Here, we address the impact of non-Gaussian errors on the sample covariance and precision matrix errors using a large ensemble of numerical N-body simulations. In the range of modes where finite volume effects are negligible ($0.1\lesssim k\,[h\,{\rm Mpc^{-1}}]\lesssim 1.2$) we find deviations of the estimated variance of the sample covariance with respect to Gaussian predictions above $\sim 10\%$ level. These reduce to about $\sim 5\%$ in the case of the precision matrix. Finally, we perform a Fisher analysis to estimate the effect of covariance errors on the cosmological parameter constraints. In particular, assuming Euclid-like survey characteristics we find that a number of independent realisation larger than $\gtrsim 5000$ is necessary to reduce the contribution of sample covariance errors to the cosmological parameter uncertainties at sub-percent level. We also show that restricting the analysis to large scales $k\lesssim0.2\,h\,{\rm Mpc^{-1}}$ results in a considerable loss in constraining power, while using the linear covariance to include smaller scales leads to an underestimation of the errors on the cosmological parameters.<br />Comment: 9 pages, 10 figures, published in MNRAS, replaced to match published version

Details

Database :
arXiv
Journal :
MNRAS 458, 4462-4470 (2016)
Publication Type :
Report
Accession number :
edsarx.1512.05383
Document Type :
Working Paper
Full Text :
https://doi.org/10.1093/mnras/stw604