Euclid preparation: I. The Euclid Wide Survey

R. Scaramella; J. Amiaux; Y. Mellier; C. Burigana; C.S. Carvalho,; J.-C. Cuillandre; A. Da Silva; A. Derosa; J. Dinis; E. Maiorano; M. Maris; I.; Tereno; R. Laureijs; T. Boenke; G. Buenadicha; X. Dupac; L.M. Gaspar; Venancio; P. G\'omez-\'Alvarez; J. Hoar; J. Lorenzo Alvarez; G.D. Racca; G.; Saavedra-Criado; J. Schwartz; R. Vavrek; M. Schirmer; H. Aussel; R.; Azzollini; V.F. Cardone; M. Cropper; A. Ealet; B. Garilli; W. Gillard; B.R.; Granett; L. Guzzo; H. Hoekstra; K. Jahnke; T. Kitching; M. Meneghetti; L.; Miller; R. Nakajima; S.M. Niemi; F. Pasian; W.J. Percival; M. Sauvage; M.; Scodeggio; S. Wachter; A. Zacchei; N. Aghanim; A. Amara; T. Auphan; N.; Auricchio; S. Awan; A. Balestra; R. Bender; C. Bodendorf; D. Bonino; E.; Branchini; S. Brau-Nogue; M. Brescia; G.P. Candini; V. Capobianco; C.; Carbone; R.G. Carlberg; J. Carretero; R. Casas; F.J. Castander; M.; Castellano; S. Cavuoti; A. Cimatti; R. Cledassou; G. Congedo; C.J. Conselice,; L. Conversi; Y. Copin; L. Corcione; A. Costille; F. Courbin; H. Degaudenzi,; M. Douspis; F. Dubath; C.A.J. Duncan; S. Dusini; S. Farrens; S. Ferriol; P.; Fosalba; N. Fourmanoit; M. Frailis; E. Franceschi; P. Franzetti; M. Fumana,; B. Gillis; C. Giocoli; A. Grazian; F. Grupp; S.V.H. Haugan; W. Holmes; F.; Hormuth; P. Hudelot; S. Kermiche; A. Kiessling; M. Kilbinger; R. Kohley; B.; Kubik; M. K\"ummel; M. Kunz; H. Kurki-Suonio; S. Ligori; P.B. Lilje; I.; Lloro; O. Mansutti; O. Marggraf; K. Markovic; F. Marulli; R. Massey; S.; Maurogordato; M. Melchior; E. Merlin; G. Meylan; J.J. Mohr; M. Moresco; B.; Morin; L. Moscardini; E. Munari; R.C. Nichol; C. Padilla; S. Paltani; J.; Peacock; K. Pedersen; V. Pettorino; S. Pires; M. Poncet; L. Popa; L.; Pozzetti; F. Raison; R. Rebolo; J. Rhodes; H.-W. Rix; M. Roncarelli; E.; Rossetti; R. Saglia; P. Schneider; T. Schrabback; A. Secroun; G. Seidel; S.; Serrano; C. Sirignano; G. Sirri; J. Skottfelt; L. Stanco; J.L. Starck; P.; Tallada-Cresp\'i; D. Tavagnacco; A.N. Taylor; H.I. Teplitz; R. Toledo-Moreo,; F. Torradeflot; M. Trifoglio; E.A. Valentijn; L. Valenziano; G.A. Verdoes; Kleijn; Y. Wang; N. Welikala; J. Weller; M. Wetzstein; G. Zamorani; J.; Zoubian; S. Andreon; M. Baldi; S. Bardelli; A. Boucaud; S. Camera; G.; Fabbian; R. Farinelli; J. Graci\'a-Carpio; D. Maino; E. Medinaceli; S. Mei,; C. Neissner; G. Polenta; A. Renzi; E. Romelli; C. Rosset; F. Sureau; M.; Tenti; T. Vassallo; E. Zucca; C. Baccigalupi; A. Balaguera-Antol\'inez; P.; Battaglia; A. Biviano; S. Borgani; E. Bozzo; R. Cabanac; A. Cappi; S. Casas,; G. Castignani; C. Colodro-Conde; J. Coupon; H.M. Courtois; J. Cuby; S. de la; Torre; S. Desai; D. Di Ferdinando; H. Dole; M. Fabricius; M. Farina; P.G.; Ferreira; F. Finelli; P. Flose-Reimberg; S. Fotopoulou; S. Galeotta; K.; Ganga; G. Gozaliasl; I.M. Hook; E. Keihanen; C.C. Kirkpatrick; P. Liebing; V.; Lindholm; G. Mainetti; M. Martinelli; N. Martinet; M. Maturi; H.J. McCracken,; R. B. Metcalf; G. Morgante; J. Nightingale; A. Nucita; L. Patrizii; D.; Potter; G. Riccio; A.G. S\'anchez; D. Sapone; J.A. Schewtschenko; M.; Schultheis; V. Scottez; R. Teyssier; I. Tutusaus; J. Valiviita; M. Viel; W.; Vriend; L. Whittaker

arXiv:2108.01201·astro-ph.CO·June 29, 2022·1 cites

Euclid preparation: I. The Euclid Wide Survey

R. Scaramella, J. Amiaux, Y. Mellier, C. Burigana, C.S. Carvalho,, J.-C. Cuillandre, A. Da Silva, A. Derosa, J. Dinis, E. Maiorano, M. Maris, I., Tereno, R. Laureijs, T. Boenke, G. Buenadicha, X. Dupac, L.M. Gaspar, Venancio, P. G\'omez-\'Alvarez, J. Hoar, J. Lorenzo Alvarez

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TL;DR

This paper details the planning, simulation, and optimization of the Euclid Wide Survey, a large-scale space mission aimed at studying dark energy through imaging and spectroscopy over 15,000 square degrees.

Contribution

It presents the development of the Euclid reference survey plan, including scheduling, coverage optimization, and simulation of observations considering various constraints.

Findings

01

The survey covers 14,500 square degrees with specified magnitude limits.

02

Simulated dither patterns ensure effective coverage and image quality.

03

The survey schedule meets all operational and calibration constraints.

Abstract

Euclid is an ESA mission designed to constrain the properties of dark energy and gravity via weak gravitational lensing and galaxy clustering. It will carry out a wide area imaging and spectroscopy survey (EWS) in visible and near-infrared, covering roughly 15,000 square degrees of extragalactic sky on six years. The wide-field telescope and instruments are optimized for pristine PSF and reduced straylight, producing very crisp images. This paper presents the building of the Euclid reference survey: the sequence of pointings of EWS, Deep fields, Auxiliary fields for calibrations, and spacecraft movements followed by Euclid as it operates in a step-and-stare mode from its orbit around the Lagrange point L2. Each EWS pointing has four dithered frames; we simulate the dither pattern at pixel level to analyse the effective coverage. We use up-to-date models for the sky background to define…

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TopicsMathematics, Computing, and Information Processing