The University of Southampton
×
Filter your search:
University of Southampton Institutional Repository

Euclid quick data release (Q1): hunting for luminous z > 6 galaxies in the Euclid Deep Fields -- forecasts and first bright detections

Euclid quick data release (Q1): hunting for luminous z > 6 galaxies in the Euclid Deep Fields -- forecasts and first bright detections
Euclid quick data release (Q1): hunting for luminous z > 6 galaxies in the Euclid Deep Fields -- forecasts and first bright detections
The evolution of the rest-frame ultraviolet luminosity function (UV LF) is a powerful probe of early star formation and stellar mass build-up. At z > 6, its bright end (MUV < -21) remains poorly constrained due to the small volumes of existing near-infrared (NIR) space-based surveys. The Euclid Deep Fields (EDFs) will cover 53 deg^2 with NIR imaging down to 26.5 AB, increasing area by a factor of 100 over previous space-based surveys. They thus offer an unprecedented opportunity to select bright z > 6 Lyman break galaxies (LBGs) and constrain the UV LF's bright end. With NIR coverage extending to 2um, Euclid can detect galaxies out to z = 13. We present forecasts for the number densities of z > 6 galaxies expected in the final EDF dataset. Using synthetic photometry from spectral energy distribution (SED) templates of z = 5--15 galaxies, z = 1--4 interlopers, and Milky Way MLT dwarfs, we explore optimal selection methods for high-z LBGs. A combination of S/N cuts with SED fitting (from optical to MIR) yields the highest-fidelity sample, recovering >76% of input z > 6 LBGs while keeping low-z contamination 10 sources. Based on empirical double power-law LF models, we expect >100,000 LBGs at z = 6-12 and >100 at z > 12 in the final Euclid release. In contrast, steeper Schechter models predict no z > 12 detections. We also present two ultra-luminous (MUV < -23.5) candidates from the EDF-N Q1 dataset. If their redshifts are confirmed, their magnitudes support a DPL LF model at z > 9, highlighting Euclid's power to constrain the UV LF's bright end and identify the most luminous early galaxies for follow-up.
astro-ph.GA
arXiv
Allen, N.
e57f221a-fcb4-41a6-b9cf-227aa58104c8
Oesch, P.A.
d08fc5b1-a970-4e4f-9980-dcd3008d80c4
Bowler, R.A.A.
79810000-457a-4bcd-aed2-f349b597ae14
Toft, S.
66a634b8-d094-4ac6-9c19-caaae336cc7e
Matharu, J.
d7f9f314-d0a0-448c-ae3e-d16071c6bd4e
Weaver, J. R.
8b2e232d-25d0-4349-84c3-821699f03c4c
McPartland, C.J.R.
c996f2cc-ec29-41bf-8233-61bbfeb54afe
Shuntov, M.
7b013d18-6bf3-4b4b-9058-9c8b5d1939dd
Sanders, D.B.
77a694ff-09de-44be-b3b5-e81349f49751
Mobasher, B.
b3154f6a-52b4-4db5-986b-2d226b749ac2
McCracken, H.J.
5d5ce987-c22c-48c0-ac18-7ee27915f3e3
Atek, H.
d0a57f6b-922f-4585-b555-7c4805a8d22c
Bañados, E.
d63a4350-9b00-4dec-ac72-854c1abba246
Barrow, S.W.J.
80ce0f95-54fd-420d-8312-be93e8dba500
Belladitta, S.
8b8d46d1-ad6b-4534-a022-0bdf0d818f4c
Carollo, D.
a1aaebdc-b44f-4397-9a39-8e1ce3ba0fa5
Castellano, M.
a42064b9-0b21-4aec-99be-67a150c6c876
Conselice, C.J.
ddb44e19-7133-4ec3-b39d-28502f2f8e5a
Eisenhardt, P.R.M.
7bc4bd4e-0863-40ff-bb85-dcbd566a5a1e
Harikane, Y.
db05f5ce-f0b1-49a3-9ca6-2e1685836291
Murphree, G.
46e80c6e-6c0f-4ace-a4c1-40f19f133079
Stefanon, M.
ba7a154a-7751-4deb-b851-77d7778d897f
Wilkins, S.M.
7c4d45d7-ff52-46b1-8a9a-4da7ce664ce8
Amara, A.
8d8bc455-162a-4156-8e6d-ef75e4801f00
Andreon, S.
6ae4288e-2655-48bc-af01-806272b12c6b
Auricchio, N.
dca3b05e-c308-4bf9-9115-0d484c088333
Baccigalupi, C.
812f8ac8-ae31-49dc-abfe-4ecc5fce8966
Baldi, M.
780dfb31-66d3-4c34-a5fc-3a6bfe98f978
Balestra, A.
379bba35-d96c-47fd-bfc3-b2690f1ac0e8
Bardelli, S.
d7eed1d7-df1b-471e-b213-6e9cb06d6213
Battaglia, P.
68651654-b8e0-4672-b88f-1eaae145779c
Bender, R.
86488c5f-206b-4770-aae8-123154bc1c7d
Biviano, A.
61714280-ebf8-48eb-9686-d75e447dffb5
Branchini, E.
6ef3ffc8-cc6f-43f1-a3e9-b221afd5c4ca
Brescia, M.
afefa233-5867-490c-933b-bd0c32711845
Brinchmann, J.
ca298440-8b05-4c02-941e-80a7d1ae00da
Camera, S.
fd4f850b-2a05-4ac0-b13d-b20397a499ae
Cañas-Herrera, G.
e1deaf1c-3017-48e7-8e22-e1c91e8508db
Capobianco, V.
7b2ba729-4682-4d71-b3f4-040baaf46aa7
Carbone, C.
d72c807a-c7bc-4c21-96c9-e4e24ca533ce
Carretero, J.
081b0f5d-7e69-469c-a22d-5b851f9b8d1d
Castignani, G.
a902a4ac-d464-4e3b-8505-37fdf4ca89be
Cavuoti, S.
39f23810-63c9-4f81-aee2-c045df2c1a12
Chambers, K. C.
923e79a3-4a1b-4e26-bf37-3a3432b27c15
Cimatti, A.
19f12d07-5e34-4313-a3da-03ffba7dc7d9
Colodro-Conde, C.
43bbfdd4-5bbe-424d-9d31-35302a5d3bb5
Congedo, G.
2eb45476-14f1-479e-a981-cf36431c9c0f
Conversi, L.
bd8269f3-effa-4390-aad8-1bd6ff06946a
Copin, Y.
e08e188e-973b-4d21-b3d9-3b67a61a8544
Shankar, F.
b10c91e4-85cd-4394-a18a-d4f049fd9cdb
Euclid Collaboration
Allen, N.
e57f221a-fcb4-41a6-b9cf-227aa58104c8
Oesch, P.A.
d08fc5b1-a970-4e4f-9980-dcd3008d80c4
Bowler, R.A.A.
79810000-457a-4bcd-aed2-f349b597ae14
Toft, S.
66a634b8-d094-4ac6-9c19-caaae336cc7e
Matharu, J.
d7f9f314-d0a0-448c-ae3e-d16071c6bd4e
Weaver, J. R.
8b2e232d-25d0-4349-84c3-821699f03c4c
McPartland, C.J.R.
c996f2cc-ec29-41bf-8233-61bbfeb54afe
Shuntov, M.
7b013d18-6bf3-4b4b-9058-9c8b5d1939dd
Sanders, D.B.
77a694ff-09de-44be-b3b5-e81349f49751
Mobasher, B.
b3154f6a-52b4-4db5-986b-2d226b749ac2
McCracken, H.J.
5d5ce987-c22c-48c0-ac18-7ee27915f3e3
Atek, H.
d0a57f6b-922f-4585-b555-7c4805a8d22c
Bañados, E.
d63a4350-9b00-4dec-ac72-854c1abba246
Barrow, S.W.J.
80ce0f95-54fd-420d-8312-be93e8dba500
Belladitta, S.
8b8d46d1-ad6b-4534-a022-0bdf0d818f4c
Carollo, D.
a1aaebdc-b44f-4397-9a39-8e1ce3ba0fa5
Castellano, M.
a42064b9-0b21-4aec-99be-67a150c6c876
Conselice, C.J.
ddb44e19-7133-4ec3-b39d-28502f2f8e5a
Eisenhardt, P.R.M.
7bc4bd4e-0863-40ff-bb85-dcbd566a5a1e
Harikane, Y.
db05f5ce-f0b1-49a3-9ca6-2e1685836291
Murphree, G.
46e80c6e-6c0f-4ace-a4c1-40f19f133079
Stefanon, M.
ba7a154a-7751-4deb-b851-77d7778d897f
Wilkins, S.M.
7c4d45d7-ff52-46b1-8a9a-4da7ce664ce8
Amara, A.
8d8bc455-162a-4156-8e6d-ef75e4801f00
Andreon, S.
6ae4288e-2655-48bc-af01-806272b12c6b
Auricchio, N.
dca3b05e-c308-4bf9-9115-0d484c088333
Baccigalupi, C.
812f8ac8-ae31-49dc-abfe-4ecc5fce8966
Baldi, M.
780dfb31-66d3-4c34-a5fc-3a6bfe98f978
Balestra, A.
379bba35-d96c-47fd-bfc3-b2690f1ac0e8
Bardelli, S.
d7eed1d7-df1b-471e-b213-6e9cb06d6213
Battaglia, P.
68651654-b8e0-4672-b88f-1eaae145779c
Bender, R.
86488c5f-206b-4770-aae8-123154bc1c7d
Biviano, A.
61714280-ebf8-48eb-9686-d75e447dffb5
Branchini, E.
6ef3ffc8-cc6f-43f1-a3e9-b221afd5c4ca
Brescia, M.
afefa233-5867-490c-933b-bd0c32711845
Brinchmann, J.
ca298440-8b05-4c02-941e-80a7d1ae00da
Camera, S.
fd4f850b-2a05-4ac0-b13d-b20397a499ae
Cañas-Herrera, G.
e1deaf1c-3017-48e7-8e22-e1c91e8508db
Capobianco, V.
7b2ba729-4682-4d71-b3f4-040baaf46aa7
Carbone, C.
d72c807a-c7bc-4c21-96c9-e4e24ca533ce
Carretero, J.
081b0f5d-7e69-469c-a22d-5b851f9b8d1d
Castignani, G.
a902a4ac-d464-4e3b-8505-37fdf4ca89be
Cavuoti, S.
39f23810-63c9-4f81-aee2-c045df2c1a12
Chambers, K. C.
923e79a3-4a1b-4e26-bf37-3a3432b27c15
Cimatti, A.
19f12d07-5e34-4313-a3da-03ffba7dc7d9
Colodro-Conde, C.
43bbfdd4-5bbe-424d-9d31-35302a5d3bb5
Congedo, G.
2eb45476-14f1-479e-a981-cf36431c9c0f
Conversi, L.
bd8269f3-effa-4390-aad8-1bd6ff06946a
Copin, Y.
e08e188e-973b-4d21-b3d9-3b67a61a8544
Shankar, F.
b10c91e4-85cd-4394-a18a-d4f049fd9cdb

[Unknown type: UNSPECIFIED]

Record type: UNSPECIFIED

Abstract

The evolution of the rest-frame ultraviolet luminosity function (UV LF) is a powerful probe of early star formation and stellar mass build-up. At z > 6, its bright end (MUV < -21) remains poorly constrained due to the small volumes of existing near-infrared (NIR) space-based surveys. The Euclid Deep Fields (EDFs) will cover 53 deg^2 with NIR imaging down to 26.5 AB, increasing area by a factor of 100 over previous space-based surveys. They thus offer an unprecedented opportunity to select bright z > 6 Lyman break galaxies (LBGs) and constrain the UV LF's bright end. With NIR coverage extending to 2um, Euclid can detect galaxies out to z = 13. We present forecasts for the number densities of z > 6 galaxies expected in the final EDF dataset. Using synthetic photometry from spectral energy distribution (SED) templates of z = 5--15 galaxies, z = 1--4 interlopers, and Milky Way MLT dwarfs, we explore optimal selection methods for high-z LBGs. A combination of S/N cuts with SED fitting (from optical to MIR) yields the highest-fidelity sample, recovering >76% of input z > 6 LBGs while keeping low-z contamination 10 sources. Based on empirical double power-law LF models, we expect >100,000 LBGs at z = 6-12 and >100 at z > 12 in the final Euclid release. In contrast, steeper Schechter models predict no z > 12 detections. We also present two ultra-luminous (MUV < -23.5) candidates from the EDF-N Q1 dataset. If their redshifts are confirmed, their magnitudes support a DPL LF model at z > 9, highlighting Euclid's power to constrain the UV LF's bright end and identify the most luminous early galaxies for follow-up.

Text
2511.02926v2 - Author's Original
Available under License Creative Commons Attribution.
Download (3MB)

More information

Accepted/In Press date: 4 November 2025
Keywords: astro-ph.GA
Learn more about the Institute for Life Sciences

Identifiers

Local EPrints ID: 510439
URI: http://eprints.soton.ac.uk/id/eprint/510439
DOI: doi:10.48550/arXiv.2511.02926
PURE UUID: 7218fa15-0934-49d3-a010-10a2556834e0

Catalogue record

Date deposited: 31 Mar 2026 16:46
Last modified: 31 Mar 2026 16:46

Export record

Altmetrics

Contributors

Author: N. Allen
Author: P.A. Oesch
Author: R.A.A. Bowler
Author: S. Toft
Author: J. Matharu
Author: J. R. Weaver
Author: C.J.R. McPartland
Author: M. Shuntov
Author: D.B. Sanders
Author: B. Mobasher
Author: H.J. McCracken
Author: H. Atek
Author: E. Bañados
Author: S.W.J. Barrow
Author: S. Belladitta
Author: D. Carollo
Author: M. Castellano
Author: C.J. Conselice
Author: P.R.M. Eisenhardt
Author: Y. Harikane
Author: G. Murphree
Author: M. Stefanon
Author: S.M. Wilkins
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: R. Bender
Author: A. Biviano
Author: E. Branchini
Author: M. Brescia
Author: J. Brinchmann
Author: S. Camera
Author: G. Cañas-Herrera
Author: V. Capobianco
Author: C. Carbone
Author: J. Carretero
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. Shankar
Corporate Author: Euclid Collaboration

Download statistics

Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.

View more statistics

Library staff additional information
Atom RSS 1.0 RSS 2.0

Contact ePrints Soton: eprints@soton.ac.uk

ePrints Soton supports OAI 2.0 with a base URL of http://eprints.soton.ac.uk/cgi/oai2

This repository has been built using EPrints software, developed at the University of Southampton, but available to everyone to use.

We use cookies to ensure that we give you the best experience on our website. If you continue without changing your settings, we will assume that you are happy to receive cookies on the University of Southampton website.

×