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Euclid quick data release (Q1): identification of massive galaxy candidates at the end of the Epoch of Reionisation

Euclid quick data release (Q1): identification of massive galaxy candidates at the end of the Epoch of Reionisation
Euclid quick data release (Q1): identification of massive galaxy candidates at the end of the Epoch of Reionisation
Probing the presence and properties of massive galaxies at high redshift is one of the most critical tests for galaxy formation models. In this work, we search for galaxies with stellar masses M* > 10^10.25 Msun at z in [5,7], i.e., towards the end of the Epoch of Reionisation, over a total of ~23 deg^2 in two of the Euclid Quick Data Release (Q1) fields: the Euclid Deep Field North and Fornax (EDF-N and EDF-F). In addition to the Euclid photometry, we incorporate Spitzer Infrared Camera (IRAC) and ground-based optical data to perform spectral energy distribution (SED) fitting, obtaining photometric redshifts and derived physical parameters. After applying rigorous selection criteria, we identify a conservative sample of 145 candidate massive galaxies with M* > 10^10.25 Msun at z in [5,7], including 5 objects with M* > 10^11 Msun. This makes for a surface density of about 6.3 deg^-2 at z in [5,7], which should be considered a lower limit because of the current depth of the Euclid data (H_E < 24, 5 sigma in Q1). We find that the inferred stellar masses are consistent with galaxy formation models with standard star-formation efficiencies. These massive galaxies have colour excess E(B-V) values up to 0.75, indicating significant dust attenuation in some of them. In addition, half of the massive galaxies have best-fit ages comparable to the age of the Universe at those redshifts, which suggests that their progenitors were formed very early in cosmic time. About 78% of the massive galaxies lie on the star-forming main sequence (MS) in the SFR-M* plane, ~12% are found in the starburst region, and 10% in the transition zone between the MS and starbursts. We find no significant evidence for outshining or AGN contamination that could account for the elevated specific star-formation rates (sSFR) observed in the ~12% of galaxies classified as starbursts.
astro-ph.GA
arXiv
Navarro-Carrera, R.
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Caputi, K.I.
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Brun, V. Le
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Andreon, S.
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Auricchio, N.
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Baccigalupi, C.
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Brescia, M.
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Brinchmann, J.
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Capobianco, V.
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Carretero, J.
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Castellano, M.
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Castignani, G.
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Cavuoti, S.
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Cimatti, A.
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Colodro-Conde, C.
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Congedo, G.
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Conversi, L.
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Euclid Collaboration
Navarro-Carrera, R.
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Caputi, K.I.
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Desprez, G.
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Tumborang, A.A.
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Biviano, A.
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Conselice, C.J.
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Fu, Y.
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Brun, V. Le
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Lovell, C.C.
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Rodighiero, G.
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Schaye, J.
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Varadaraj, R.G.
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Wilkins, S.M.
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Zamorani, G.
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Jahnke, K.
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Scott, D.
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Siudek, M.
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Shankar, F.
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Sorce, J.G.
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Tarsitano, F.
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Amara, A.
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Andreon, S.
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Auricchio, N.
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Baccigalupi, C.
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Baldi, M.
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Balestra, A.
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Bardelli, S.
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Battaglia, P.
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Branchini, E.
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Brescia, M.
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Brinchmann, J.
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Cañas-Herrera, G.
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Capobianco, V.
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Carbone, C.
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Carretero, J.
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Castellano, M.
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Castignani, G.
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Cavuoti, S.
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Chambers, K.C.
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Cimatti, A.
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Colodro-Conde, C.
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Congedo, G.
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Conversi, L.
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Courbin, F.
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Courtois, H. M.
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[Unknown type: UNSPECIFIED]

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Abstract

Probing the presence and properties of massive galaxies at high redshift is one of the most critical tests for galaxy formation models. In this work, we search for galaxies with stellar masses M* > 10^10.25 Msun at z in [5,7], i.e., towards the end of the Epoch of Reionisation, over a total of ~23 deg^2 in two of the Euclid Quick Data Release (Q1) fields: the Euclid Deep Field North and Fornax (EDF-N and EDF-F). In addition to the Euclid photometry, we incorporate Spitzer Infrared Camera (IRAC) and ground-based optical data to perform spectral energy distribution (SED) fitting, obtaining photometric redshifts and derived physical parameters. After applying rigorous selection criteria, we identify a conservative sample of 145 candidate massive galaxies with M* > 10^10.25 Msun at z in [5,7], including 5 objects with M* > 10^11 Msun. This makes for a surface density of about 6.3 deg^-2 at z in [5,7], which should be considered a lower limit because of the current depth of the Euclid data (H_E < 24, 5 sigma in Q1). We find that the inferred stellar masses are consistent with galaxy formation models with standard star-formation efficiencies. These massive galaxies have colour excess E(B-V) values up to 0.75, indicating significant dust attenuation in some of them. In addition, half of the massive galaxies have best-fit ages comparable to the age of the Universe at those redshifts, which suggests that their progenitors were formed very early in cosmic time. About 78% of the massive galaxies lie on the star-forming main sequence (MS) in the SFR-M* plane, ~12% are found in the starburst region, and 10% in the transition zone between the MS and starbursts. We find no significant evidence for outshining or AGN contamination that could account for the elevated specific star-formation rates (sSFR) observed in the ~12% of galaxies classified as starbursts.

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2511.11943v1 - Author's Original
Available under License Creative Commons Attribution.
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Accepted/In Press date: 14 November 2025
Additional Information: 13 pages, including 6 figures and 3 tables; submitted to A&A
Keywords: astro-ph.GA
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Local EPrints ID: 510430
URI: http://eprints.soton.ac.uk/id/eprint/510430
DOI: doi:10.48550/arXiv.2511.11943
PURE UUID: b4229fda-70bb-4e34-b348-eb20b206f565

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Date deposited: 31 Mar 2026 16:39
Last modified: 31 Mar 2026 16:39

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Contributors

Author: R. Navarro-Carrera
Author: K.I. Caputi
Author: C.J.R. McPartland
Author: J.R. Weaver
Author: D.B. Sanders
Author: G. Desprez
Author: A.A. Tumborang
Author: A. Biviano
Author: C.J. Conselice
Author: Y. Fu
Author: G. Girardi
Author: V. Le Brun
Author: C.C. Lovell
Author: G. Rodighiero
Author: J. Schaye
Author: R.G. Varadaraj
Author: S.M. Wilkins
Author: G. Zamorani
Author: K. Jahnke
Author: D. Scott
Author: M. Siudek
Author: F. Shankar
Author: J.G. Sorce
Author: F. Tarsitano
Author: A. Amara
Author: S. Andreon
Author: N. Auricchio
Author: C. Baccigalupi
Author: M. Baldi
Author: A. Balestra
Author: S. Bardelli
Author: P. Battaglia
Author: E. Branchini
Author: M. Brescia
Author: J. Brinchmann
Author: G. Cañas-Herrera
Author: V. Capobianco
Author: C. Carbone
Author: J. Carretero
Author: M. Castellano
Author: G. Castignani
Author: S. Cavuoti
Author: K.C. Chambers
Author: A. Cimatti
Author: C. Colodro-Conde
Author: G. Congedo
Author: L. Conversi
Author: Y. Copin
Author: F. Courbin
Author: H. M. Courtois
Corporate Author: Euclid Collaboration

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