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Published May 2021 | Submitted + Published
Journal Article Open

Euclid: Impact of non-linear and baryonic feedback prescriptions on cosmological parameter estimation from weak lensing cosmic shear

Martinelli, M.
Tutusaus, I.
Archidiacono, M.
Camera, S.
Cardone, V. F.
Clesse, S.
Casas, S.
Casarini, L.
Mota, D. F.
Hoekstra, H.
Carbone, C.
Ilić, S.
Kitching, T. D.
Pettorino, V.
Pourtsidou, A.
Sakr, Z.
Sapone, D.
Auricchio, N.
Balestra, A.
Boucaud, A.
Branchini, E.
Brescia, M.
Capobianco, V.
Carretero, J.
Castellano, M.
Cavuoti, S.
Cimatti, A.
Cledassou, R.
Congedo, G.
Conselice, C.
Conversi, L.
Corcione, L.
Costille, A.
Douspis, M.
Dubath, F.
Dusini, S.
Fabbian, G.
Fosalba, P.
Frailis, M.
Franceschi, E.
Gillis, B.
Giocoli, C.
Grupp, F.
Guzzo, L.
Holmes, W.
Hormuth, F.
Jahnke, K.
Kermiche, S.
Kiessling, A.
Kilbinger, M.
Kunz, M.
Kurki-Suonio, H.
Ligori, S.
Lilje, P. B.
Lloro, I.
Maiorano, E.
Marggraf, O.
Markovic, K.
Massey, R.
Meneghetti, M.
Meylan, G.
Morin, B.
Moscardini, L.
Niemi, S.
Padilla, C.
Paltani, S.
Pasian, F.
Pedersen, K.
Pires, S.
Polenta, G.
Poncet, M.
Popa, L.
Raison, F.
Rhodes, J. ORCID icon
Roncarelli, M.
Rossetti, E.
Saglia, R.
Schneider, P.
Secroun, A.
Serrano, S.
Sirignano, C.
Sirri, G.
Starck, J.-L.
Sureau, F.
Taylor, A. N.
Tereno, I.
Toledo-Moreo, R.
Valentijn, E. A.
Valenziano, L.
Vassallo, T.
Wang, Y.
Welikala, N.
Zacchei, A.
Zoubian, J.
Euclid Consortium

Abstract

Upcoming surveys will map the growth of large-scale structure with unprecented precision, improving our understanding of the dark sector of the Universe. Unfortunately, much of the cosmological information is encoded on small scales, where the clustering of dark matter and the effects of astrophysical feedback processes are not fully understood. This can bias the estimates of cosmological parameters, which we study here for a joint analysis of mock Euclid cosmic shear and Planck cosmic microwave background data. We use different implementations for the modelling of the signal on small scales and find that they result in significantly different predictions. Moreover, the different non-linear corrections lead to biased parameter estimates, especially when the analysis is extended into the highly non-linear regime, with the Hubble constant, H₀, and the clustering amplitude, σ₈, affected the most. Improvements in the modelling of non-linear scales will therefore be needed if we are to resolve the current tension with more and better data. For a given prescription for the non-linear power spectrum, using different corrections for baryon physics does not significantly impact the precision of Euclid, but neglecting these correction does lead to large biases in the cosmological parameters. In order to extract precise and unbiased constraints on cosmological parameters from Euclid cosmic shear data, it is therefore essential to improve the accuracy of the recipes that account for non-linear structure formation, as well as the modelling of the impact of astrophysical processes that redistribute the baryons.

Additional Information

© ESO 2021. Received 3 November 2020 / Accepted 12 April 2021. D. F. M. thanks the Research Council of Norway for their support, and the resources provided by UNINETT Sigma2 – the National Infrastructure for High Performance Computing and Data Storage in Norway. M. M. has received the support of a fellowship from "la Caixa" Foundation (ID 100010434), with fellowship code LCF/BQ/PI19/11690015, and the support of the Spanish Agencia Estatal de Investigacion through the grant "IFT Centro de Excelencia Severo Ochoa SEV-2016-0597". This paper is based upon work from the COST action CA15117 (CANTATA), supported by COST (European Cooperation in Science and Technology). M. A. acknowledges the computing support of INFN-CNAF. Stefano Camera acknowledges support from the Italian Ministry of Education, University and Research (MIUR) through Rita Levi Montalcini project 'PROMETHEUS – Probing and Relating Observables with Multi-wavelength Experiments To Help Enlightening the Universe's Structure', and the 'Departments of Excellence 2018–2022' Grant awarded by MIUR (L. 232/2016). The work of SC is supported by the Belgian Fund for Research FNRS-F.R.S. I. T. acknowledges support from the Spanish Ministry of Science, Innovation and Universities through grant ESP2017-89838-C3-1-R. I. T. and T. K. acknowledge funding from the H2020 programme of the European Commission through grant 776247. AP is a UK Research and Innovation Future Leaders Fellow, grant MR/S016066/1. The Euclid Consortium acknowledges the European Space Agency and a number of agencies and institutes that have supported the development of Euclid, in particular the Academy of Finland, the Agenzia Spaziale Italiana, the Belgian Science Policy, the Canadian Euclid Consortium, the Centre National d'Etudes Spatiales, the Deutsches Zentrum für Luft- und Raumfahrt, the Danish Space Research Institute, the Fundação para a Ciência e a Tecnologia, the Ministerio de Economia y Competitividad, the National Aeronautics and Space Administration, the Netherlandse Onderzoekschool Voor Astronomie, the Norwegian Space Agency, the Romanian Space Agency, the State Secretariat for Education, Research and Innovation (SERI) at the Swiss Space Office (SSO), and the United Kingdom Space Agency. A complete and detailed list is available on the Euclid web site (http://www.euclid-ec.org).

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