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Published March 2023 | Published
Journal Article Open

Euclid preparation XXIV. Calibration of the halo mass function in Λ(ν)CDM cosmologies

Castro, T.
Fumagalli, A.
Angulo, R. E.
Bocquet, S.
Borgani, S.
Carbone, C.
Dakin, J.
Dolag, K.
Giocoli, C.
Monaco, P.
Ragagnin, A.
Saro, A.
Sefusatti, E.
Costanzi, M.
Le Brun, A. M. C.
Corasaniti, P.-S.
Amara, A.
Amendola, L.
Baldi, M.
Bender, R.
Bodendorf, C.
Branchini, E.
Brescia, M.
Camera, S.
Capobianco, V.
Carretero, J.
Castellano, M.
Cavuoti, S.
Cimatti, A.
Cledassou, R.
Congedo, G.
Conversi, L.
Copin, Y.
Corcione, L.
Courbin, F.
Da Silva, A.
Degaudenzi, H.
Douspis, M.
Dubath, F.
Duncan, C. A. J.
Dupac, X.
Farrens, S.
Ferriol, S.
Fosalba, P.
Frailis, M.
Franceschi, E.
Galeotta, S.
Garilli, B.
Gillis, B.
Grazian, A.
Grupp, F.
Haugan, S. V. H.
Hormuth, F.
Hornstrup, A.
Hudelot, P.
Jahnke, K.
Kermiche, S.
Kitching, T.
Kunz, M.
Kurki-Suonio, H.
Lilje, P. B.
Lloro, I.
Mansutti, O.
Marggraf, O.
Marulli, F.
Meneghetti, M.
Merlin, E.
Meylan, G.
Moresco, M.
Moscardini, L.
Munari, E.
Niemi, S. M.
Padilla, C.
Paltani, S.
Pasian, F.
Pedersen, K.
Pettorino, V.
Pires, S.
Polenta, G.
Poncet, M.
Popa, L.
Pozzetti, L.
Raison, F.
Rebolo, R.
Renzi, A.
Rhodes, J. ORCID icon
Riccio, G.
Romelli, E.
Saglia, R.
Sapone, D.
Sartoris, B.
Schneider, P.
Seidel, G.
Sirri, G.
Stanco, L.
Tallada Crespí, P.
Taylor, A. N.
Toledo-Moreo, R.
Torradeflot, F.
Tutusaus, I.
Valentijn, E. A.
Valenziano, L.
Vassallo, T.
Wang, Y. ORCID icon
Weller, J.
Zacchei, A.
Zamorani, G.
Andreon, S.
Bardelli, S.
Bozzo, E.
Colodro-Conde, C.
Di Ferdinando, D.
Farina, M.
Graciá-Carpio, J.
Lindholm, V.
Neissner, C.
Scottez, V.
Tenti, M.
Zucca, E.
Baccigalupi, C.
Balaguera-Antolínez, A.
Ballardini, M.
Bernardeau, F.
Biviano, A.
Blanchard, A.
Borlaff, A. S.
Burigana, C.
Cabanac, R.
Cappi, A.
Carvalho, C. S.
Casas, S.
Castignani, G.
Cooray, A.
Coupon, J.
Courtois, H. M.
Davini, S.
De Lucia, G.
Desprez, G.
Dole, H.
Escartin, J. A.
Escoffier, S.
Finelli, F.
Ganga, K.
Garcia-Bellido, J.
George, K.
Gozaliasl, G.
Hildebrandt, H.
Hook, I.
Ilić, S.
Kansal, V.
Keihanen, E.
Kirkpatrick, C. C.
Loureiro, A.
Macias-Perez, J.
Magliocchetti, M.
Maoli, R.
Marcin, S.
Martinelli, M.
Martinet, N.
Matthew, S.
Maturi, M.
Metcalf, R. B.
Morgante, G.
Nadathur, S.
Nucita, A. A.
Patrizii, L.
Peel, A.
Popa, V.
Porciani, C.
Potter, D.
Pourtsidou, A.
Pöntinen, M.
Sánchez, A. G.
Sakr, Z.
Schirmer, M.
Sereno, M.
Spurio Mancini, A.
Teyssier, R.
Valiviita, J.
Veropalumbo, A.
Viel, M.
Euclid Collaboration

Abstract

Euclid's photometric galaxy cluster survey has the potential to be a very competitive cosmological probe. The main cosmological probe with observations of clusters is their number count, within which the halo mass function (HMF) is a key theoretical quantity. We present a new calibration of the analytic HMF, at the level of accuracy and precision required for the uncertainty in this quantity to be subdominant with respect to other sources of uncertainty in recovering cosmological parameters from Euclid cluster counts. Our model is calibrated against a suite of N-body simulations using a Bayesian approach taking into account systematic errors arising from numerical effects in the simulation. First, we test the convergence of HMF predictions from different N-body codes, by using initial conditions generated with different orders of Lagrangian Perturbation theory, and adopting different simulation box sizes and mass resolution. Then, we quantify the effect of using different halo finder algorithms, and how the resulting differences propagate to the cosmological constraints. In order to trace the violation of universality in the HMF, we also analyse simulations based on initial conditions characterised by scale-free power spectra with different spectral indexes, assuming both Einstein–de Sitter and standard ΛCDM expansion histories. Based on these results, we construct a fitting function for the HMF that we demonstrate to be sub-percent accurate in reproducing results from 9 different variants of the ΛCDM model including massive neutrinos cosmologies. The calibration systematic uncertainty is largely sub-dominant with respect to the expected precision of future mass–observation relations; with the only notable exception of the effect due to the halo finder, that could lead to biased cosmological inference.

Additional Information

© The Authors 2023. Open Access article, published by EDP Sciences, under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. This article is published in open access under the Subscribe to Open model. Subscribe to A&A to support open access publication. It is a pleasure to thank Valerio Marra for constructive comments during the production of this work, Renate Mauland-Hus and Hans Winter for the support with RAMSES simulations, Peter Berhoozi for the support with ROCKSTAR, Oliver Hahn for the support with monofonIC and MUSIC, and Douglas Potter for the support with PKDGRAV-3 set up. Lourdes Ondaro-Mallea and Matteo Zennaro for sharing their HMF data. TC, SB, and AS are supported by the INFN INDARK PD51 grant. TC and AS are also supported by the FARE MIUR grant 'ClustersXEuclid' R165SBKTMA. AS is also supported by the ERC 'ClustersXCosmo' grant agreement 716762. KD acknowledges support by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) under Germany's Excellence Strategy – EXC-2094 – 390783311 as well as support through the COMPLEX project from the European Research Council (ERC) under the European Union's Horizon 2020 research and innovation program grant agreement ERC-2019-AdG 882679. AR is supported by the PRIN-MIUR 2017 WSCC32 ZOOMING grant. We acknowledge the computing centre of CINECA and INAF, under the coordination of the "Accordo Quadro (MoU) per lo svolgimento di attività congiunta di ricerca Nuove frontiere in Astrofisica: HPC e Data Exploration di nuova generazione", for the availability of computing resources and support. We acknowledge the use of the HOTCAT computing infrastructure of the Astronomical Observatory of Trieste – National Institute for Astrophysics (INAF, Italy; see Bertocco et al. 2020; Taffoni et al. 2020). 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 French 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 Ciencia e Innovación, the National Aeronautics and Space Administration, the National Astronomical Observatory of Japan, 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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August 22, 2023
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