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Euclid view of the dusty star-forming galaxies at ≳ detected in wide area submillimetre surveys.

Authors :
Mitra, Dipanjan
Negrello, Mattia
De Zotti, Gianfranco
Cai, Zhen-Yi
Source :
Monthly Notices of the Royal Astronomical Society; May2024, Vol. 530 Issue 2, p2292-2314, 23p
Publication Year :
2024

Abstract

We investigate the constraints provided by the Euclid space observatory on the physical properties of dusty star-forming galaxies (DSFGs) at |$z\gtrsim 1.5$| detected in wide area submillimetre surveys with Herschel. We adopt a physical model for the high- z progenitors of spheroidal galaxies, which form the bulk of DSFGs at |$z\gtrsim 1.5$|⁠. We improve the model by combining the output of the equations of the model with a formalism for the spectral energy distribution (SED). After optimizing the SED parameters to reproduce the measured infrared luminosity function and number counts of DFSGs, we simulated a sample of DSFGs over 100  |$\hbox{deg}^2$| and then applied a |$5\, \sigma$| detection limit of |$37\,$|  mJy at 250  |$\mu$| m. We estimated the redshifts from the Euclid data and then fitted the Euclid + Herschel photometry with the code CIGALE to extract the physical parameters. We found that 100 per cent of the Herschel galaxies are detected in all 4 Euclid bands above |$3\, \sigma$|⁠. For 87 per cent of these sources the accuracy on |$1 + z$| is better than 15 per cent. The sample comprises mostly massive, i.e. |$\log (M_{\star }/{\rm M}_{\odot })\sim 10.5{\!-\!}12.9$|⁠ , highly star forming, i.e. |$\log (\hbox{SFR}/{\rm M}_{\odot }\hbox{yr}^{-1})\sim 1.5{\!-\!}4$|⁠ , dusty, i.e. |$\log (M_{\rm dust}/{\rm M}_{\odot })\sim 7.5{\!-\!}9.9$|⁠ , galaxies. The measured stellar masses have a dispersion of 0.19 dex around the true value, thus showing that Euclid will provide reliable stellar mass estimates for the majority of the bright DSFGs at |$z\gtrsim 1.5$| detected by Herschel. We also explored the effect of complementing the Euclid photometry with that from the Vera C. Rubin Observatory/LSST. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00358711
Volume :
530
Issue :
2
Database :
Complementary Index
Journal :
Monthly Notices of the Royal Astronomical Society
Publication Type :
Academic Journal
Accession number :
177061656
Full Text :
https://doi.org/10.1093/mnras/stae976