Euclid: Early Release Observations. Weak gravitational lensing analysis of Abell 2390

T. Schrabback (1; 2); G. Congedo (3); R. Gavazzi (4; 5); W. G. Hartley (6); H. Jansen (1); Y. Kang (6); F. Kleinebreil (1); H. Atek (5); E. Bertin (7); J.-C. Cuillandre (7); J. M. Diego (8); S. Grandis (1); H. Hoekstra (9); M. K\"ummel (10); L. Linke (1); H. Miyatake (11; 12; 13); N. Okabe (14; 15; 16); S. Paltani (6); M. Schefer (6); P. Simon (2); F. Tarsitano (6); A. N. Taylor (3); J. R. Weaver (17); R. Bhatawdekar (18); M. Montes (19); P. Rosati (20; 21); S. Toft (22; 23); B. Altieri (18); A. Amara (24); L. Amendola (25); S. Andreon (26); N. Auricchio (21); C. Baccigalupi (27; 28; 29; 30); M. Baldi (31; 21; 32); A. Balestra (33); S. Bardelli (21); P. Battaglia (21); R. Bender (34; 10); A. Biviano (28; 27); E. Branchini (35; 36; 26); M. Brescia (37; 38); J. Brinchmann (39; 40; 41); S. Camera (42; 43; 44); G. Ca\~nas-Herrera (45; 46; 9); G. P. Candini (47); V. Capobianco (44); C. Carbone (48); V. F. Cardone (49; 50); J. Carretero (51; 52); S. Casas (53); F. J. Castander (19; 54); M. 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Saglia (10; 34); Z. Sakr (25; 110; 111); D. Sapone (112); B. Sartoris (10; 28); M. Schirmer (79); P. Schneider (2); A. Secroun (69); G. Seidel (79); M. Seiffert (74); S. Serrano (54; 113; 19); C. Sirignano (109; 68); G. Sirri (32); A. Spurio Mancini (114); L. Stanco (68); J. Steinwagner (34); P. Tallada-Cresp\'i (51; 52); I. Tereno (65; 115); N. Tessore (81); R. Toledo-Moreo (116); F. Torradeflot (52; 51); I. Tutusaus (110); E. A. Valentijn (86); L. Valenziano (21; 72); J. Valiviita (84; 85); T. Vassallo (10; 28); G. Verdoes Kleijn (86); A. Veropalumbo (26; 36; 35); Y. Wang (117); J. Weller (10; 34); G. Zamorani (21); F. M. Zerbi (26); E. Zucca (21); M. Bolzonella (21); C. Burigana (118; 72); L. Gabarra (119); J. Mart\'in-Fleitas (120); S. Matthew (3); A. Pezzotta (121; 34); V. Scottez (98; 122); M. Sereno (21; 32); M. Viel (27; 28; 30; 29; 123); D. 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arXiv:2507.07629·astro-ph.CO·April 29, 2026

Euclid: Early Release Observations. Weak gravitational lensing analysis of Abell 2390

T. Schrabback (1, 2), G. Congedo (3), R. Gavazzi (4, 5), W. G. Hartley (6), H. Jansen (1), Y. Kang (6), F. Kleinebreil (1), H. Atek (5), E. Bertin (7), J.-C. Cuillandre (7), J. M. Diego (8), S. Grandis (1), H. Hoekstra (9), M. K\"ummel (10), L. Linke (1), H. Miyatake (11, 12

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TL;DR

This paper demonstrates Euclid's capability for precise tomographic weak lensing analysis by measuring the mass of galaxy cluster Abell 2390 using multiple shape algorithms and photometric redshifts.

Contribution

First application of Euclid early observations to weak lensing analysis of a galaxy cluster, validating measurement techniques and calibration methods.

Findings

01

Consistent mass estimates across three shape measurement algorithms.

02

Good agreement with previous cluster mass measurements.

03

Validated Euclid's potential for tomographic weak lensing studies.

Abstract

The Euclid space telescope of the European Space Agency (ESA) is designed to provide sensitive and accurate measurements of weak gravitational lensing distortions over wide areas on the sky. Here we present a weak gravitational lensing analysis of early Euclid observations obtained for the field around the massive galaxy cluster Abell 2390 as part of the Euclid Early Release Observations programme. We conduct galaxy shape measurements using three independent algorithms (LensMC, KSB+, and SourceXtractor++). Incorporating multi-band photometry from Euclid and Subaru/Suprime-Cam, we estimate photometric redshifts to preferentially select background sources from tomographic redshift bins, for which we calibrate the redshift distributions using the self-organising map approach and data from the Cosmic Evolution Survey (COSMOS). We quantify the residual cluster member contamination and…

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