700 research outputs found
A study of purely astrometric selection of extragalactic point sources with Gaia
Selection of extragalactic point sources, e.g. QSOs, is often hampered by
significant selection effects causing existing samples to have rather complex
selection functions. We explore whether a purely astrometric selection of
extragalactic point sources, e.g. QSOs, is feasible with the ongoing Gaia
mission. Such a selection would be interesting as it would be unbiased in terms
of colours of the targets and hence would allow selection also with colours in
the stellar sequence. We have analyzed a total of 18 representative regions of
the sky by using GUMS, the simulator prepared for ESAs Gaia mission, both in
the range of mag and mag. For each region we
determine the density of apparently stationary stellar sources, i.e. sources
for which Gaia cannot measure a significant proper motion. The density is
contrasted with the density of extragalactic point sources, e.g. QSOs, in order
to establish in which celestial directions a pure astrometric selection is
feasible. When targeting regions at galactic latitude
the ratio of QSOs to apparently stationary stars is above 50\% and when
observing towards the poles the fraction of QSOs goes up to about \%.
We show that the proper motions from the proposed Gaia successor mission in
about 20 years would dramatically improve these results at all latitudes.
Detection of QSOs solely from zero proper motion, unbiased by any assumptions
on spectra, might lead to the discovery of new types of QSOs or new classes of
extragalactic point sources.Comment: 4 pages, 4 figures, sent in and accepted for publishing to A&
The high A_V Quasar Survey: A z=2.027 metal-rich damped Lyman-alpha absorber towards a red quasar at z=3.21
To fully exploit the potential of quasars as probes of cosmic chemical
evolution and the internal gas dynamics of galaxies it is important to
understand the selection effects behind the quasar samples and in particular if
the selection criteria exclude foreground galaxies with certain properties
(most importantly a high dust content). Here we present spectroscopic follow-up
from the 10.4-m GTC telescope of a dust-reddened quasar, eHAQ0111+0641, from
the extended High A_V Quasar (HAQ) survey. We find that the z=3.21 quasar has a
foreground Damped Lyman-alpha Absorber (DLA) at z=2.027 along the line of
sight. The DLA has very strong metal lines due to a moderately high metallicity
(with an inferred lower limit of 25% of the solar metallicity), but a very
large gas column density along the line-of-sight in its host galaxy. This
discovery is further evidence that there is a dust bias affecting the census of
metals, caused by the combined effect of dust obscuration and reddening, in
existing samples of z>2 DLAs. The case of eHAQ0111+0641 illustrates that dust
bias is not only caused by dust obscuration, but also dust reddening.Comment: 7 pages, 4 figures. Accepted for publication in A&A. A few typos have
been correcte
Investigating the [C]-to-H conversion factor and the H gas budget of galaxies at with hydrodynamical simulations
One of the most fundamental baryonic matter components of galaxies is the
neutral atomic hydrogen (H). At low redshifts, this
component can be traced directly through the 21-cm transition, but to infer
H gas content of the most distant galaxies, a viable
tracer is needed. We here investigate the fidelity of the fine structure
transition of the () transition of singly-ionized carbon
[C] at m as a proxy for H in a set simulated galaxies at , following the work by Heintz
et al. (2021). We select 11,125 star-forming galaxies from the SIMBA
simulations, with far-infrared line emissions post-processed and modeled within
the SIGAME framework. We find a strong connection between [C] and H, with the relation between this [C]-to-H relation () being anti-correlated with the gas-phase metallicity of the
simulated galaxies. We further use these simulations to make predictions for
the total baryonic matter content of galaxies at , and specifically
the HI gas mass fraction. We find mean values of ,
and . These results provide strong evidence
for H being the dominant baryonic matter component by
mass in galaxies at .Comment: 7 pages, 3 figures. Accepted for publication by ApJ
Early JWST imaging reveals strong optical and NIR color gradients in galaxies at driven mostly by dust
Recent studies have shown that galaxies at cosmic noon are redder in the
center and bluer in the outskirts, mirroring results in the local universe.
These color gradients could be caused by either gradients in the stellar age or
dust opacity; however, distinguishing between these two causes is impossible
with rest-frame optical photometry alone. Here we investigate the underlying
causes of the gradients from spatially-resolved rest-frame vs.
color-color diagrams, measured from early observations with the James Webb
Space Telescope. We use NIRCam photometry from the
CEERS survey of a sample of 54 galaxies with at redshifts
selected from the 3D-HST catalog. We model the light profiles in
the F115W, F200W and F356W NIRCam bands using \texttt{imcascade}, a Bayesian
implementation of the Multi-Gaussian expansion (MGE) technique which flexibly
represents galaxy profiles using a series of Gaussians. We construct resolved
rest-frame and color profiles. The majority of star-forming
galaxies have negative gradients (i.e. redder in the center, bluer in the
outskirts) in both and colors consistent with radially decreasing
dust attenuation. A smaller population (roughly 15\%) of star-forming galaxies
have positive but negative gradients implying centrally
concentrated star-formation. For quiescent galaxies we find a diversity of UVJ
color profiles, with roughly one-third showing star-formation in their center.
This study showcases the potential of JWST to study the resolved stellar
populations of galaxies at cosmic noon.Comment: Updated to match published version, new Figure 5 and some text
change
The archival discovery of a strong Lyman- and [CII] emitter at z = 7.677
We report the archival discovery of Lyman- emission from the bright
ultraviolet galaxy Y002 at , spectroscopically confirmed by its
ionized carbon [CII] 158m emission line. The Ly line is spatially
associated with the rest-frame UV stellar emission (~-22, 2x
brighter than ) and it appears offset from the peak of the
extended [CII] emission at the current ~1" spatial resolution. We derive an
estimate of the unobscured SFR(UV)= yr and set an
upper limit of SFR(IR) yr from the far-infrared wavelength
range, which globally place Y002 on the SFR(UV+IR)-L([CII]) correlation
observed at lower redshifts. In terms of velocity, the peak of the Ly
emission is redshifted by (Ly)~500 km s from the
systemic redshift set by [CII] and a high-velocity tail extends to up to ~1000
km s. The velocity offset is up to ~3.5x higher than the average
estimate for similarly UV-bright emitters at z~6-7, which might suggest that we
are witnessing the merging of two clumps. A combination of strong outflows and
the possible presence of an extended ionized bubble surrounding Y002 would
likely facilitate the escape of copious Ly light, as indicated by the
large equivalent width EW(Ly)= \r{A}. Assuming that [CII]
traces the neutral hydrogen, we estimate a HI gas fraction of for Y002 as a system and speculate that patches of high
HI column densities could contribute to explain the observed spatial offsets
between Ly and [CII] emitting regions. The low dust content, implied by
the non-detection of the far-infrared continuum emission at rest-frame ~160
m, would be sufficient to absorb any potential Ly photons produced
within the [CII] clump as a result of large HI column densities.Comment: 10 pages, 4 figures. Accepted for publication in The Astrophysical
Journal Letter
Dust depletion of of metals from local to distant galaxies II: Cosmic dust-to-metal ratio and dust composition
The evolution of the cosmic dust content and the cycle between metals and
dust in the interstellar medium (ISM) play a fundamental role in galaxy
evolution. The chemical enrichment of the Universe can be traced through the
evolution of the dust-to-metals ratio (DTM) and the dust-to-gas ratio (DTG)
with metallicity. We use a novel method to determine mass estimates of the DTM,
DTG and dust composition based on our previous measurements of the depletion of
metals in different environments (the Milky Way, the Magellanic Clouds, and
damped Lyman- absorbers, DLAs, toward quasars and towards gamma-ray
bursts, GRBs), which were calculated from the relative abundances of metals in
the ISM through absorption-line spectroscopy column densities observed mainly
from VLT/UVES and X-shooter, and HST/STIS. We derive the dust extinction from
the estimated dust depletion () and compare with the
from extinction. We find that the DTM and DTG ratios increase with metallicity
and with the dust tracer [Zn/Fe]. This suggests that grain growth in the ISM is
a dominant process of dust production. The increasing trend of the DTM and DTG
with metallicity is in good agreement with a dust production and evolution
model. Our data suggest that the stellar dust yield is much lower than the
metal yield and thus that the overall amount of dust in the warm neutral medium
that is produced by stars is much lower. We find that is
overall lower than for the Milky Way and a few Magellanic
Clouds lines of sight, a discrepancy that is likely related to the presence of
carbonaceous dust. We show that the main elements that contribute to the dust
composition are, O, Fe, Si, Mg, C, S, Ni and Al for all the environments.
Abundances at low dust regimes suggest the presence of pyroxene and metallic
iron in dust.Comment: Accepted for publication in A&A. Abstract abridge
Size - Stellar Mass Relation and Morphology of Quiescent Galaxies at in Public Fields
We present the results of a systematic study of the rest-frame optical
morphology of quiescent galaxies at using the Near-Infrared Camera
(NIRCam) onboard . Based on a sample selected by color or
color, we focus on 26 quiescent galaxies with
at with publicly
available data. Their sizes are constrained by fitting the S\'ersic
profile to all available NIRCam images. We see a negative correlation between
the observed wavelength and the size in our sample and derive their size at the
rest-frame taking into account this trend. Our quiescent
galaxies show a significant correlation between the rest-frame size and the stellar mass at . The analytical fit for them at
implies that our size - stellar mass relations
are below those at lower redshifts, with the amplitude of
at . This value agrees with the
extrapolation from the size evolution of quiescent galaxies at in the
literature, implying that the size of quiescent galaxies increases
monotonically from . Our sample is mainly composed of galaxies with
bulge-like structures according to their median S\'ersic index and axis ratio
of and , respectively. On the other hand, there is a
trend of increasing fraction of galaxies with low S\'ersic index, suggesting
might be the epoch of onset of morphological transformation with a
fraction of very notable disky quenched galaxies.Comment: 23 pages, 16 figures, 2 tables; submitted to Ap
- …