Euclid preparation. XXV. The Euclid Morphology Challenge -- Towards   model-fitting photometry for billions of galaxies

Euclid Collaboration: E. Merlin; M. Castellano; H. Bretonni\`ere; M.; Huertas-Company; U. Kuchner; D. Tuccillo; F. Buitrago; J. R. Peterson; C.J.; Conselice; F. Caro; P. Dimauro; L. Nemani; A. Fontana; M. K\"ummel; B.; H\"au{\ss}ler; W. G. Hartley; A. Alvarez Ayllon; E. Bertin; P. Dubath; F.; Ferrari; L. Ferreira; R. Gavazzi; D. Hern\'andez-Lang; G. Lucatelli; A. S. G.; Robotham; M. Schefer; C. Tortora; N. Aghanim; A. Amara; L. Amendola; N.; Auricchio; M. Baldi; R. Bender; C. Bodendorf; E. Branchini; M. Brescia; S.; Camera; V. Capobianco; C. Carbone; J. Carretero; F. J. Castander; S. Cavuoti,; A. Cimatti; R. Cledassou; G. Congedo; L. Conversi; Y. Copin; L. Corcione; F.; Courbin; M. Cropper; A. Da Silva; H. Degaudenzi; J. Dinis; M. Douspis; F.; Dubath; C.A.J. Duncan; X. Dupac; S. Dusini; S. Farrens; S. Ferriol; M.; Frailis; E. Franceschi; P. Franzetti; S. Galeotta; B. Garilli; B. Gillis; C.; Giocoli; A. Grazian; F. Grupp; S.V.H. Haugan; H. Hoekstra; W. Holmes; F.; Hormuth; A. Hornstrup; P. Hudelot; K. Jahnke; S. Kermiche; A. Kiessling; T.; Kitching; R. Kohley; M. Kunz; H. Kurki-Suonio; S. Ligori; P. B. Lilje; I.; Lloro; O. Mansutti; O. Marggraf; K. Markovic; F. Marulli; R. Massey; H.J; McCracken; E. Medinaceli; M. Melchior; M. Meneghetti; G. Meylan; M. Moresco,; L. Moscardini; E. Munari; S.M. Niemi; C. Padilla; S. Paltani; F. Pasian; K.; Pedersen; W.J. Percival; G. Polenta; M. Poncet; L. Popa; L. Pozzetti; F.; Raison; R. Rebolo; A. Renzi; J. Rhodes; G. Riccio; E. Romelli; E. Rossetti,; R. Saglia; D. Sapone; B. Sartoris; P. Schneider; A. Secroun; G. Seidel; C.; Sirignano; G. Sirri; J. Skottfelt; J.-L. Starck; P. Tallada-Cresp\'i; A.N.; Taylor; I. Tereno; R. Toledo-Moreo; I. Tutusaus; L. Valenziano; T. Vassallo,; Y. Wang; J. Weller; A. Zacchei; G. Zamorani; J. Zoubian; S. Andreon; S.; Bardelli; A. Boucaud; C. Colodro-Conde; D. Di Ferdinando; J. Graci\'a-Carpio,; V. Lindholm; N. Mauri; S. Mei; C. Neissner; V. Scottez; A. Tramacere; E.; Zucca; C. Baccigalupi; A. Balaguera-Antol\'inez; M. Ballardini; F.; Bernardeau; A. Biviano; S. Borgani; A.S. Borlaff; C. Burigana; R. Cabanac; A.; Cappi; C.S. Carvalho; S. Casas; G. Castignani; A.R. Cooray; J. Coupon; H.M.; Courtois; O. Cucciati; S. Davini; G. De Lucia; G. Desprez; J.A. Escartin; S.; Escoffier; M. Farina; K. Ganga; J. Garcia-Bellido; K. George; G. Gozaliasl,; H. Hildebrandt; I. Hook; O. Ilbert; S. Ilic; B. Joachimi; V. Kansal; E.; Keihanen; C.C. Kirkpatrick; A. Loureiro; J. Macias-Perez; M. Magliocchetti,; G. Mainetti; R. Maoli; S. Marcin; M. Martinelli; N. Martinet; S. Matthew; M.; Maturi; R.B. Metcalf; P. Monaco; G. Morgante; S. Nadathur; A.A. Nucita; L.; Patrizii; V. Popa; C. Porciani; D. Potter; A. Pourtsidou; M. P\"ontinen; P.; Reimberg; A.G. S\'anchez; Z. Sakr; M. Schirmer; M. Sereno; J. Stadel; R.; Teyssier; C. Valieri; J. Valiviita; S.E. van Mierlo; A. Veropalumbo; M. Viel,; J. R. Weaver; D. Scott

arXiv:2209.12906·astro-ph.GA·March 15, 2023

Euclid preparation. XXV. The Euclid Morphology Challenge -- Towards model-fitting photometry for billions of galaxies

Euclid Collaboration: E. Merlin, M. Castellano, H. Bretonni\`ere, M., Huertas-Company, U. Kuchner, D. Tuccillo, F. Buitrago, J. R. Peterson, C.J., Conselice, F. Caro, P. Dimauro, L. Nemani, A. Fontana, M. K\"ummel, B., H\"au{\ss}ler, W. G. Hartley, A. Alvarez Ayllon, E. Bertin

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TL;DR

This paper evaluates the performance of five model-fitting software packages on simulated Euclid galaxy data to identify the most suitable algorithm for real-time photometric and morphological analysis of billions of galaxies.

Contribution

It presents a comprehensive comparison of model-fitting algorithms using realistic simulated Euclid data, guiding the selection for the mission's data processing pipeline.

Findings

01

All software packages provided generally good results.

02

The comparison established baseline performance metrics.

03

Insights into strengths and weaknesses of each algorithm.

Abstract

The ESA Euclid mission will provide high-quality imaging for about 1.5 billion galaxies. A software pipeline to automatically process and analyse such a huge amount of data in real time is being developed by the Science Ground Segment of the Euclid Consortium; this pipeline will include a model-fitting algorithm, which will provide photometric and morphological estimates of paramount importance for the core science goals of the mission and for legacy science. The Euclid Morphology Challenge is a comparative investigation of the performance of five model-fitting software packages on simulated Euclid data, aimed at providing the baseline to identify the best suited algorithm to be implemented in the pipeline. In this paper we describe the simulated data set, and we discuss the photometry results. A companion paper (Euclid Collaboration: Bretonni\`ere et al. 2022) is focused on the…

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