Deep MUSE observations in the HDFS

Aims. Whereas the evolution of gas kinematics of massive galaxies is now relatively well established up to redshift z ~ 3, little is known about the kinematics of lower mass (M⋆≤ 1010M⊙) galaxies. We use MUSE, a powerful wide-field, optical integral-field spectrograph (IFS) recently mounted on the V...

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Bibliographic Details
Published in:Astronomy and astrophysics (Berlin) 2016, Vol.591
Main Authors: Contini, T., Epinat, B., Bouché, N., Brinchmann, J., Boogaard, L. A., Ventou, E., Bacon, R., Richard, J., Weilbacher, P. M., Wisotzki, L., Krajnović, D., Vielfaure, J-B., Emsellem, E., Finley, H., Inami, H., Schaye, J., Swinbank, M., Guérou, A., Martinsson, T., Michel-Dansac, L., Schroetter, I., Shirazi, M., Soucail, G.
Format: Article
Language:English
Subjects:
galaxies: evolution
galaxies: high-redshift
galaxies: kinematics and dynamics
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Summary:Aims. Whereas the evolution of gas kinematics of massive galaxies is now relatively well established up to redshift z ~ 3, little is known about the kinematics of lower mass (M⋆≤ 1010M⊙) galaxies. We use MUSE, a powerful wide-field, optical integral-field spectrograph (IFS) recently mounted on the VLT, to characterize this galaxy population at intermediate redshift. Methods. We made use of the deepest MUSE observations performed so far on the Hubble Deep Field South (HDFS). This data cube, resulting from 27 h of integration time, covers a one arcmin2 field of view at an unprecedented depth (with a 1σ emission-line surface brightness limit of 1 × 10-19 erg s-1 cm-2 arcsec-2) and a final spatial resolution of ≈0.7′′. We identified a sample of 28 resolved emission-line galaxies, extending over an area that is at least twice the seeing disk, spread over a redshift interval of 0.2
ISSN:0004-6361
1432-0746
DOI:10.1051/0004-6361/201527866