Mitigating baryonic effects with a theoretical error covariance
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Data
2021-11-01
Autores
Moreira, Maria G. [UNESP]
Andrade-Oliveira, Felipe [UNESP]
Fang, Xiao
Huang, Hung-Jin
Krause, Elisabeth
Miranda, Vivian
Rosenfeld, Rogerio [UNESP]
Simonović, Marko
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Resumo
One of the primary sources of uncertainties in modelling the cosmic-shear power spectrum on small scales is the effect of baryonic physics. Accurate cosmology for stage-IV surveys requires knowledge of the matter power spectrum deep in the non-linear regime at the per cent level. Therefore, it is important to develop reliable mitigation techniques to take into account baryonic uncertainties if information from small scales is to be considered in the cosmological analysis. In this work, we develop a new mitigation method for dealing with baryonic physics for the case of the shear angular power spectrum. The method is based on an augmented covariance matrix that incorporates baryonic uncertainties informed by hydrodynamical simulations. We use the results from 13 hydrodynamical simulations and the residual errors arising from a fit to a ΛCDM model using the extended halo model code HMCODE to account for baryonic physics. These residual errors are used to model a so-called theoretical error covariance matrix that is added to the original covariance matrix. In order to assess the performance of the method, we use the 2D tomographic shear from four hydrodynamical simulations that have different extremes of baryonic parameters as mock data and run a likelihood analysis comparing the residual bias on Ωm and σ 8 of our method and the HMCODE for an LSST-like survey. We use different modelling of the theoretical error covariance matrix to test the robustness of the method. We show that it is possible to reduce the bias in the determination of the tested cosmological parameters at the price of a modest decrease in the precision.
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Cosmology: observations, Large-scale structure of Universe
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Monthly Notices of the Royal Astronomical Society, v. 507, n. 4, p. 5592-5601, 2021.