In:
Astronomy & Astrophysics, EDP Sciences, Vol. 666 ( 2022-10), p. A200-
Abstract:
Context. The Euclid mission is expected to discover thousands of z 〉 6 galaxies in three deep fields, which together will cover a ∼50 deg 2 area. However, the limited number of Euclid bands (four) and the low availability of ancillary data could make the identification of z 〉 6 galaxies challenging. Aims. In this work we assess the degree of contamination by intermediate-redshift galaxies ( z = 1–5.8) expected for z 〉 6 galaxies within the Euclid Deep Survey. Methods. This study is based on ∼176 000 real galaxies at z = 1–8 in a ∼0.7 deg 2 area selected from the UltraVISTA ultra-deep survey and ∼96 000 mock galaxies with 25.3 ≤ H 〈 27.0, which altogether cover the range of magnitudes to be probed in the Euclid Deep Survey. We simulate Euclid and ancillary photometry from fiducial 28-band photometry and fit spectral energy distributions to various combinations of these simulated data. Results. We demonstrate that identifying z 〉 6 galaxies with Euclid data alone will be very effective, with a z 〉 6 recovery of 91% (88%) for bright (faint) galaxies. For the UltraVISTA-like bright sample, the percentage of z = 1–5.8 contaminants amongst apparent z 〉 6 galaxies as observed with Euclid alone is 18%, which is reduced to 4% (13%) by including ultra-deep Rubin ( Spitzer ) photometry. Conversely, for the faint mock sample, the contamination fraction with Euclid alone is considerably higher at 39%, and minimised to 7% when including ultra-deep Rubin data. For UltraVISTA-like bright galaxies, we find that Euclid ( I E − Y E ) 〉 2.8 and ( Y E − J E ) 〈 1.4 colour criteria can separate contaminants from true z 〉 6 galaxies, although these are applicable to only 54% of the contaminants as many have unconstrained ( I E − Y E ) colours. In the best scenario, these cuts reduce the contamination fraction to 1% whilst preserving 81% of the fiducial z 〉 6 sample. For the faint mock sample, colour cuts are infeasible; we find instead that a 5 σ detection threshold requirement in at least one of the Euclid near-infrared bands reduces the contamination fraction to 25%.
Type of Medium:
Online Resource
ISSN:
0004-6361
,
1432-0746
DOI:
10.1051/0004-6361/202243950
Language:
English
Publisher:
EDP Sciences
Publication Date:
2022
detail.hit.zdb_id:
1458466-9
SSG:
16,12
