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KURVS: the outer rotation curve shapes and dark matter fractions of z∼1.5 star-forming galaxies

KURVS: the outer rotation curve shapes and dark matter fractions of z∼1.5 star-forming galaxies
KURVS: the outer rotation curve shapes and dark matter fractions of z∼1.5 star-forming galaxies
We present first results from the KMOS Ultra-deep Rotation Velocity Survey (KURVS), aimed at studying the outer rotation curves shape and dark matter content of 22 star-forming galaxies at z ~ 1.5. These galaxies represent 'typical' star-forming discs at z ~ 1.5, being located within the star-forming main sequence and stellar mass-size relation with stellar masses 9.5 ≤ log(M/M) ≤ 11.5. We use the spatially resolved H α emission to extract individual rotation curves out to 4 times the effective radius, on average, or ~10-15 kpc. Most rotation curves are flat or rising between three and six disc scale radii. Only three objects with dispersion-dominated dynamics (vrot0 ~ 0.2) have declining outer rotation curves at more than 5σ significance. After accounting for seeing and pressure support, the nine rotation-dominated discs with vrot0 ≥ 1.5 have average dark matter fractions of $50 \pm 20{{\ \rm per\ cent}}$ at the effective radius, similar to local discs. Together with previous observations of star-forming galaxies at cosmic noon, our measurements suggest a trend of declining dark matter fraction with increasing stellar mass and stellar mass surface density at the effective radius. Measurements of simulated EAGLE galaxies are in quantitative agreement with observations up to log$(M_{\star } R_{\rm eff}^{-2} /\mathrm{M_{\odot } kpc^{-2}}) \sim 9.2$, and overpredict the dark matter fraction of galaxies with higher mass surface densities by a factor of ~3. We conclude that the dynamics of typical rotationally-supported discs at z ~ 1.5 is dominated by dark matter from effective radius scales, in broad agreement with cosmological models. The tension with observations at high stellar mass surface density suggests that the prescriptions for baryonic processes occurring in the most massive galaxies (such as bulge growth and quenching) need to be reassessed....
astro-ph.GA
1365-2966
2814–2835
Puglisi, Annagrazia
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Dudzevičiūtė, Ugnė
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Swinbank, Mark
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Gillman, Steven
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Tiley, Alfred L.
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Bower, Richard G.
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Cirasuolo, Michele
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Cortese, Luca
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Glazebrook, Karl
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Harrison, Chris
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Ibar, Edo
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Molina, Juan
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Obreschkow, Danail
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Oman, Kyle A.
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Schaller, Matthieu
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Shankar, Francesco
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Sharples, Ray M.
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et al.
Puglisi, Annagrazia
97237841-1e6d-48fb-9133-671b6f3af18b
Dudzevičiūtė, Ugnė
a5adde4e-3602-49ab-af6a-477f159c3e34
Swinbank, Mark
4a30279f-7213-4357-9544-68a355d760a7
Gillman, Steven
112fadab-3bbc-443a-a00d-7afcd90bca9c
Tiley, Alfred L.
907299d0-135a-4eeb-bda9-15ebd7172849
Bower, Richard G.
15b9d453-ec3c-4125-b113-908ff487e1db
Cirasuolo, Michele
4b4367b5-493b-4f80-bccc-f0fcb6e1a507
Cortese, Luca
a7a6c914-47ad-483b-8af8-5e2d23c55b7b
Glazebrook, Karl
a0f7c538-1e8c-4ea8-9f49-a5ab0eb353f4
Harrison, Chris
d34df276-e5cb-4cbe-8445-78cfe485e849
Ibar, Edo
9c50d09d-badd-48ee-a705-04dd719fc4bb
Molina, Juan
ffa48c47-d1f3-4703-9af6-6a1c4a20fa0e
Obreschkow, Danail
deb493c4-8dee-4a94-98f8-005e29c6e1ae
Oman, Kyle A.
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Schaller, Matthieu
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Shankar, Francesco
b10c91e4-85cd-4394-a18a-d4f049fd9cdb
Sharples, Ray M.
bc9cb368-6cd9-4d97-8d5b-17a992fd74df

Puglisi, Annagrazia, Dudzevičiūtė, Ugnė and Swinbank, Mark , et al. (2023) KURVS: the outer rotation curve shapes and dark matter fractions of z∼1.5 star-forming galaxies. Monthly Notices of the Royal Astronomical Society, 524 (2), 2814–2835. (doi:10.48550/arXiv.2305.04382).

Record type: Article

Abstract

We present first results from the KMOS Ultra-deep Rotation Velocity Survey (KURVS), aimed at studying the outer rotation curves shape and dark matter content of 22 star-forming galaxies at z ~ 1.5. These galaxies represent 'typical' star-forming discs at z ~ 1.5, being located within the star-forming main sequence and stellar mass-size relation with stellar masses 9.5 ≤ log(M/M) ≤ 11.5. We use the spatially resolved H α emission to extract individual rotation curves out to 4 times the effective radius, on average, or ~10-15 kpc. Most rotation curves are flat or rising between three and six disc scale radii. Only three objects with dispersion-dominated dynamics (vrot0 ~ 0.2) have declining outer rotation curves at more than 5σ significance. After accounting for seeing and pressure support, the nine rotation-dominated discs with vrot0 ≥ 1.5 have average dark matter fractions of $50 \pm 20{{\ \rm per\ cent}}$ at the effective radius, similar to local discs. Together with previous observations of star-forming galaxies at cosmic noon, our measurements suggest a trend of declining dark matter fraction with increasing stellar mass and stellar mass surface density at the effective radius. Measurements of simulated EAGLE galaxies are in quantitative agreement with observations up to log$(M_{\star } R_{\rm eff}^{-2} /\mathrm{M_{\odot } kpc^{-2}}) \sim 9.2$, and overpredict the dark matter fraction of galaxies with higher mass surface densities by a factor of ~3. We conclude that the dynamics of typical rotationally-supported discs at z ~ 1.5 is dominated by dark matter from effective radius scales, in broad agreement with cosmological models. The tension with observations at high stellar mass surface density suggests that the prescriptions for baryonic processes occurring in the most massive galaxies (such as bulge growth and quenching) need to be reassessed....

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Accepted/In Press date: 20 June 2023
e-pub ahead of print date: 8 July 2023
Published date: 1 September 2023
Keywords: astro-ph.GA

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Local EPrints ID: 478263
URI: http://eprints.soton.ac.uk/id/eprint/478263
ISSN: 1365-2966
PURE UUID: d1a9f35d-3c00-46da-8a6b-33ba9aa79131

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Date deposited: 26 Jun 2023 17:15
Last modified: 19 Apr 2024 17:01

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Contributors

Author: Annagrazia Puglisi
Author: Ugnė Dudzevičiūtė
Author: Mark Swinbank
Author: Steven Gillman
Author: Alfred L. Tiley
Author: Richard G. Bower
Author: Michele Cirasuolo
Author: Luca Cortese
Author: Karl Glazebrook
Author: Chris Harrison
Author: Edo Ibar
Author: Juan Molina
Author: Danail Obreschkow
Author: Kyle A. Oman
Author: Matthieu Schaller
Author: Ray M. Sharples
Corporate Author: et al.

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