Data

Data from: Physical properties and evolution of (sub-)millimetre-selected galaxies in the galaxy formation simulation SHARK

The University of Western Australia
Lagos Urbina, Claudia ; Lima da Cunha, Elisabete ; Robotham, Aaron ; Obreschkow, Danail ; Valentino, Francesco ; Fujimoto, Seiji ; Magdis, Georgios E. ; Tobar Carrizo, Rodrigo
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ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=https://research-repository.uwa.edu.au/en/datasets/626506fc-75c5-4a0d-a590-a9d740fc3847&rft.title=Data from: Physical properties and evolution of (sub-)millimetre-selected galaxies in the galaxy formation simulation SHARK&rft.identifier=626506fc-75c5-4a0d-a590-a9d740fc3847&rft.publisher=SAO/NASA Astrophysics Data System (ADS)&rft.description=We thoroughly explore the properties of (sub)-millimetre (mm) selected galaxies (SMGs) in the shark semi-analytic model of galaxy formation. Compared to observations, the predicted number counts at wavelengths (λ) 0.6-2 mm and redshift distributions at 0.1-2 mm, agree well. At the bright end (≥1 mJy), shark galaxies are a mix of mergers and disc instabilities. These galaxies display a stacked far-ultraviolet (FUV)-to-far-infrared (FIR) spectrum that agrees well with observations. We predict that current optical/NIR surveys are deep enough to detect bright (>1 mJy) λ = 0.85-2 mm-selected galaxies at z ≲ 5, but too shallow to detect counterparts at higher redshift. A James Webb Space Telescope 10 000s survey should detect all counterparts for galaxies with S0.85mm ≳ 0.01 mJy. We predict SMG's disks contribute significantly (negligibly) to the rest-frame UV (IR). We investigate the 0 ≤ z ≤ 6 evolution of the intrinsic properties of >1 mJy λ = 0.85-2 mm-selected galaxies finding their: (i) stellar masses are > 1010.2, M⊙, with the 2 mm ones tracing the most massive galaxies (> 1011 M⊙); (ii) specific star formation rates (SFR) are mildly (≈3-10 times) above the main sequence (MS); (iii) host halo masses are > 1012.3, M⊙, with 2 mm galaxies tracing the most massive haloes (protoclusters); (iv) SMGs have lower dust masses (≈ 108 M⊙), higher dust temperatures (≈40-45 K) and higher rest-frame V-band attenuation (>1.5) than MS galaxies; (v) sizes decrease with redshift, from 4 kpc at z = 1 to ≲1 kpc at z = 4; and (vi) the carbon monoxide line spectra of S0.85mm ≳ 1 mJy sources peak at 4 → 3. Finally, we study the contribution of SMGs to the molecular gas and cosmic SFR density at 0 ≤ z ≤ 10, finding that >1 mJy sources make a negligible contribution at z ≳ 3 and 5, respectively, suggesting current observations have unveiled the majority of the SF at 0 ≤ z ≤ 10. &rft.creator=Lagos Urbina, Claudia &rft.creator=Lima da Cunha, Elisabete &rft.creator=Robotham, Aaron &rft.creator=Obreschkow, Danail &rft.creator=Valentino, Francesco &rft.creator=Fujimoto, Seiji &rft.creator=Magdis, Georgios E. &rft.creator=Tobar Carrizo, Rodrigo &rft.date=2020&rft.relation=http://research-repository.uwa.edu.au/en/publications/468a30dc-0c92-49eb-b41a-ee541a9123c4&rft_subject=galaxies: evolution&rft_subject=galaxies: formation&rft_subject=galaxies: ISM&rft_subject=submillimetre: galaxies&rft.type=dataset&rft.language=English Access the data
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We thoroughly explore the properties of (sub)-millimetre (mm) selected galaxies (SMGs) in the shark semi-analytic model of galaxy formation. Compared to observations, the predicted number counts at wavelengths (λ) 0.6-2 mm and redshift distributions at 0.1-2 mm, agree well. At the bright end (≥1 mJy), shark galaxies are a mix of mergers and disc instabilities. These galaxies display a stacked far-ultraviolet (FUV)-to-far-infrared (FIR) spectrum that agrees well with observations. We predict that current optical/NIR surveys are deep enough to detect bright (>1 mJy) λ = 0.85-2 mm-selected galaxies at z ≲ 5, but too shallow to detect counterparts at higher redshift. A James Webb Space Telescope 10 000s survey should detect all counterparts for galaxies with S0.85mm ≳ 0.01 mJy. We predict SMG's disks contribute significantly (negligibly) to the rest-frame UV (IR). We investigate the 0 ≤ z ≤ 6 evolution of the intrinsic properties of >1 mJy λ = 0.85-2 mm-selected galaxies finding their: (i) stellar masses are > 1010.2, M⊙, with the 2 mm ones tracing the most massive galaxies (> 1011 M⊙); (ii) specific star formation rates (SFR) are mildly (≈3-10 times) above the main sequence (MS); (iii) host halo masses are > 1012.3, M⊙, with 2 mm galaxies tracing the most massive haloes (protoclusters); (iv) SMGs have lower dust masses (≈ 108 M⊙), higher dust temperatures (≈40-45 K) and higher rest-frame V-band attenuation (>1.5) than MS galaxies; (v) sizes decrease with redshift, from 4 kpc at z = 1 to ≲1 kpc at z = 4; and (vi) the carbon monoxide line spectra of S0.85mm ≳ 1 mJy sources peak at 4 → 3. Finally, we study the contribution of SMGs to the molecular gas and cosmic SFR density at 0 ≤ z ≤ 10, finding that >1 mJy sources make a negligible contribution at z ≳ 3 and 5, respectively, suggesting current observations have unveiled the majority of the SF at 0 ≤ z ≤ 10.

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Associated Persons
Rodrigo Tobar Carrizo (Creator)Francesco Valentino (Creator); Seiji Fujimoto (Creator); Georgios E. Magdis (Creator)

Issued: 2020-12

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Subjects
galaxies: ISM | galaxies: evolution | galaxies: formation | submillimetre: galaxies |

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  • global : 626506fc-75c5-4a0d-a590-a9d740fc3847
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