Comparing Compressed and Full-modeling Analyses with FOLPS: Implications   for DESI 2024 and beyond

H. E. Noriega; A. Aviles; H. Gil-Mar\'in; S. Ramirez-Solano; S.; Fromenteau; M. Vargas-Maga\~na; J. Aguilar; S. Ahlen; O. Alves; S. Brieden,; D. Brooks; J. L. Cervantes-Cota; S. Chen; T. Claybaugh; S. Cole; K. Dawson,; A. de la Macorra; A. de Mattia; P. Doel; N. Findlay; J. E. Forero-Romero; E.; Gazta\~naga; S. Gontcho A Gontcho; K. Honscheid; J. Hou; C. Howlett; M.; Ishak; S. Juneau; Y. Lai; M. Landriau; M. Manera; M. Maus; R. Miquel; G.; Morales-Navarrete; E. Mueller; A. Mu\~noz-Guti\'errez; A. D. Myers; S.; Nadathur; G. Niz; N. Palanque-Delabrouille; W. J. Percival; C. Poppett; M.; Rezaie; A. Rocher; G. Rossi; E. Sanchez; D. Schlegel; M. Schubnell; D.; Sprayberry; G. Tarl\'e; L. Verde; S. Yuan; P. Zarrouk; H. Zou

arXiv:2404.07269·astro-ph.CO·November 26, 2024·1 cites

Comparing Compressed and Full-modeling Analyses with FOLPS: Implications for DESI 2024 and beyond

H. E. Noriega, A. Aviles, H. Gil-Mar\'in, S. Ramirez-Solano, S., Fromenteau, M. Vargas-Maga\~na, J. Aguilar, S. Ahlen, O. Alves, S. Brieden,, D. Brooks, J. L. Cervantes-Cota, S. Chen, T. Claybaugh, S. Cole, K. Dawson,, A. de la Macorra, A. de Mattia, P. Doel, N. Findlay

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TL;DR

This paper validates the FOLPS effective field theory model for DESI's large-scale structure analysis, comparing full-modeling and compression methods, and assesses systematic errors and extensions beyond standard cosmology.

Contribution

It introduces a robust validation of FOLPS against simulations and compares two analysis approaches, enhancing the reliability of DESI power spectrum studies.

Findings

01

FOLPS modeling errors are sub-dominant within DESI scales.

02

Full-modeling and ShapeFit methods agree in precision and accuracy.

03

Systematic errors from assumptions are quantified and manageable.

Abstract

The Dark Energy Spectroscopic Instrument (DESI) will provide unprecedented information about the large-scale structure of our Universe. In this work, we study the robustness of the theoretical modelling of the power spectrum of FOLPS, a novel effective field theory-based package for evaluating the redshift space power spectrum in the presence of massive neutrinos. We perform this validation by fitting the AbacusSummit high-accuracy $N$ -body simulations for Luminous Red Galaxies, Emission Line Galaxies and Quasar tracers, calibrated to describe DESI observations. We quantify the potential systematic error budget of FOLPS, finding that the modelling errors are fully sub-dominant for the DESI statistical precision within the studied range of scales. Additionally, we study two complementary approaches to fit and analyse the power spectrum data, one based on direct Full-Modelling fits and…

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Code & Models

Repositories

henoriega/folps-nu
jaxOfficial

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Taxonomy

TopicsSuperconducting and THz Device Technology · Astronomy and Astrophysical Research · Cosmology and Gravitation Theories