99 research outputs found
The WiggleZ Dark Energy Survey: high-resolution kinematics of luminous star-forming galaxies
We report evidence of ordered orbital motion in luminous star-forming galaxies at z~ 1.3. We present integral field spectroscopy (IFS) observations, performed with the OH Suppressing InfraRed Imaging Spectrograph (OSIRIS) system, assisted by laser guide star adaptive optics on the Keck telescope, of 13 star-forming galaxies selected from the WiggleZ Dark Energy Survey. Selected via ultraviolet and [O ii] emission, the large volume of the WiggleZ survey allows the selection of sources which have comparable intrinsic luminosity and stellar mass to IFS samples at z > 2. Multiple 1–2 kpc size subcomponents of emission, or ‘clumps’, are detected within the Hα spatial emission which extends over 6–10 kpc in four galaxies, resolved compact emission (r 100 km s^(−1)) in the most compact sources. This unique data set reveals that the most luminous star-forming galaxies at z > 1 are gaseous unstable discs indicating that a different mode of star formation could be feeding gas to galaxies at z > 1, and lending support to theories of cold dense gas flows from the intergalactic medium
Spatially resolved dust properties and quasar-galaxy decomposition of HyLIRG at redshift 4.4
We report spatially resolved dust properties of the quasar host galaxy BRI
1335-0417 at redshift constrained by the ALMA observations. The dust
temperature map, derived from a greybody fit to rest-frame 90 and 161 m
continuum images, shows a steep increase towards the centre, reaching K. Image decomposition analysis reveals the presence of a point source in
both dust continuum images at the same position as the highest temperature peak
and the optical quasar position, which we attribute to warm dust heated by an
active galactic nucleus (AGN). We show that a model including this warm
component along with cooler dust heated by star formation describes the global
SED better than a single component model, with dust temperatures of
87.1 K (warm component) and 52.6 K (cold
component). The star formation rate (SFR) estimated from the cold dust
component is yr, a factor of three smaller
than previous estimates due to a large AGN contribution (%).
The unresolved warm dust component also explains the steep temperature
gradient, as the temperature profile derived after the point source subtraction
is flat. We further show that AGN-host galaxy decomposition is critical for
estimating SFR distribution, as point source subtraction reduces the estimated
central SFR surface density by over a factor of three.
With this correction, spatially resolved measurements of
and the surface gas mass density
form a roughly linear sequence in the Kennicutt-Schmidt
diagram with a constant gas depletion time of 50-200 Myr.Comment: 25pages, 25figures, 4tables, Submitted to MNRAS, Comments are warmly
welcome
Lyman-alpha at Cosmic Noon II: The relationship between kinematics and Lyman-alpha in z~2-3 Lyman Break Galaxies
We report for the first time a relationship between galaxy kinematics and net
Lyman-alpha equivalent width (net Lya EW) in star forming galaxies during the
epoch of peak cosmic star formation. Building on the previously reported
broadband imaging segregation of Lya-emitting and Lya-absorbing Lyman break
galaxies (LBGs) at z~2 (Paper I in this series) and previously at z~3, we use
the Lya spectral type classification method to study the relationship between
net Lya EW and nebular emission-line kinematics determined from IFU
spectroscopy. We show that z~2 and z~3 LBGs segregate in colour-magnitude space
according to their kinematic properties and Lyman-alpha spectral type, and
conclude that LBGs with Lya dominant in absorption are almost exclusively
rotation-dominated (presumably disc-like) systems, and LBGs with Lya dominant
in emission characteristically have dispersion-dominated kinematics. We
quantify the relationship between the strength of rotational dynamic support
and net Lya EW, and demonstrate the consistency of our result with other
properties that scale with net Lya EW and kinematics. Based on these findings,
we suggest a method by which large samples of rotation- and
dispersion-dominated galaxies might be selected using broadband imaging in as
few as three filters and/or net Lya EW alone. Application of this method will
enable an understanding of galaxy kinematic behaviour over large scales in
datasets from current and future large-area and all-sky photometric surveys
that will select hundreds of millions of LBGs in redshift ranges from z~2-6
across many hundreds to thousands of Mpc. Finally, we speculate that the
combination of our result linking net Lya EW and nebular emission-line
kinematics with the known large-scale clustering behaviour of Lya-absorbing and
Lya-emitting LBGs is evocative of a nascent morphology-density relation at
z~2-3.Comment: Published in PASA (Version 2: Typos corrected and minor clarifying
edits in S3.1 & S3.2.1
Size-scaling of clump instabilities in turbulent, feedback regulated disks
We explore the scaling between the size of star-forming clumps and rotational
support in massively star-forming galactic disks. The analysis relies on
simulations of a clumpy galaxy at and the observed DYNAMO sample of rare
clumpy analogs at to test a predictive clump size scaling
proposed by \citet{Fisher2017ApJ...839L...5F} in the context of the Violent
Disk Instability (VDI) theory. We here determine the clump sizes using a
recently presented 2-point estimator, which is robust against resolution/noise
effects, hierarchical clump substructure, clump-clump overlap and other
galactic substructure. After verifying Fisher's clump scaling relation for the
DYNAMO observations, we explore whether this relation remains characteristic of
the VDI theory, even if realistic physical processes, such as local asymetries
and stellar feedback, are included in the model. To this end, we rely on
hydrodynamic zoom-simulations of a Milky Way-mass galaxy with four different
feedback prescriptions. We find that, during its marginally stable epoch at
, this mock galaxy falls on the clump scaling relation, although its
position on this relation depends on the feedback model. This finding implies
that Toomre-like stability considerations approximately apply to large
() instabilities in marginally stable turbulent disks,
irrespective of the feedback model, but also emphasizes that the global clump
distribution of a turbulent disk depends strongly on feedback.Comment: Accepted by ApJ, no changes made. 11 pages, 4 figure
The physical drivers of gas turbulence in simulated disc galaxies
We use the EAGLE cosmological simulations to study the evolution of the
vertical velocity dispersion of cold gas, , in central disc
galaxies and its connection to stellar feedback, gravitational instabilities,
cosmological gas accretion and galaxy mergers. To isolate the impact of
feedback, we analyse runs that turn off stellar and (or) AGN feedback in
addition to a run that includes both. The evolution of and its
dependence on stellar mass and star formation rate in EAGLE are in good
agreement with observations. Galaxies hosted by haloes of similar virial mass,
, have similar values even in runs where feedback is
absent. The prevalence of local instabilities in discs is uncorrelated with
at low redshift and becomes only weakly correlated at high redshifts
and in galaxies hosted by massive haloes. correlates most strongly
with the specific gas accretion rate onto the disc as well as with the degree
of misalignment between the inflowing gas and the disc's rotation axis. These
correlations are significant across all redshifts and halo masses, with
misaligned accretion being the primary driver of high gas turbulence at
redshifts and for halo masses . Galaxy mergers increase , but because they are rare in
our sample, they play only a minor role in its evolution. Our results suggest
that the turbulence of cold gas in EAGLE discs results from a complex interplay
of different physical processes whose relative importance depends on halo mass
and redshift.Comment: 22 pages, 12 figures. Accepted for publication in MNRA
- …