70 research outputs found
HELP: a catalogue of 170 million objects, selected at 0.36–4.5 μm, from 1270 deg2 of prime extragalactic fields
We present an optical to near-infrared (NIR) selected astronomical catalogue covering 1270 deg2. This is the first attempt to systematically combine data from 23 of the premier extragalactic survey fields – the product of a vast investment of telescope time. The fields are those imaged by the Herschel Space Observatory that form the Herschel Extragalactic Legacy Project (HELP). Our catalogue of 170 million objects is constructed by a positional cross-match of 51 public surveys. This high-resolution optical, NIR, and mid-infrared catalogue is designed for photometric redshift estimation, extraction of fluxes in lower resolution far-infrared maps, and spectral energy distribution modelling. It collates, standardizes, and provides value added derived quantities including corrected aperture magnitudes and astrometry correction over the Herschel extragalactic wide fields for the first time. grizy fluxes are available on all fields with g-band data reaching 5σ point-source depths in a 2 arcsec aperture of 23.5, 24.4, and 24.6 (AB) mag at the 25th, 50th, and 75th percentiles, by area covered, across all HELP fields. It has K or Ks coverage over 1146 deg2 with depth percentiles of 20.2, 20.4, and 21.0 mag, respectively. The IRAC Ch 1 band is available over 273 deg2 with depth percentiles of 17.7, 21.4, and 22.2 mag, respectively. This paper defines the ‘masterlist’ objects for the first data release (DR1) of HELP. This large sample of standardized total and corrected aperture fluxes, uniform quality flags, and completeness measures provides large well-understood statistical samples over the full Herschel extragalactic sky
Spatial disconnection between stellar and dust emissions: the test of the Antennae Galaxies (Arp 244)
The detection with of the Atacama Large Millimeter Array (ALMA) of dust-rich
high redshift galaxies whose cold dust emission is spatially disconnected from
the ultraviolet emission bears a challenge for modelling their spectral energy
distributions (SED) with codes based on an energy budget between the stellar
and dust components. We test the validity of energy balance modelling on a
nearby resolved galaxy with vastly different ultraviolet and infrared spatial
distributions and infer what information can be reliably retrieved from the
analysis of the full spectral energy distribution. We use 15 broadband images
of the Antennae Galaxies ranging from far-ultraviolet to far-infrared and
divide Arp 244 into 58 square ~1 kpc regions. We fit the data with CIGALE
to determine the star formation rate, stellar mass and dust attenuation of each
region. We compare these quantities for the addition of the 58 regions to the
ones obtained for Arp 244 as a whole and find that both estimates are
consistent within one sigma. We present the spatial distribution of these
physical parameters as well as the shape of the attenuation curve across the
Antennae Galaxies . We also observe a flattening of the attenuation curves with
increasing attenuation and dust surface density in agreement with the
predictions of hydrodynamical simulations coupled with radiative transfer
modelling.Comment: 13 pages, 9 figures, Accepted for publication in Astronomy &
Astrophysic
The properties of the Malin 1 galaxy giant disk: A panchromatic view from the NGVS and GUViCS surveys
Low surface brightness galaxies (LSBGs) represent a significant percentage of
local galaxies but their formation and evolution remain elusive. They may hold
crucial information for our understanding of many key issues (i.e., census of
baryonic and dark matter, star formation in the low density regime, mass
function). The most massive examples - the so called giant LSBGs - can be as
massive as the Milky Way, but with this mass being distributed in a much larger
disk. Malin 1 is an iconic giant LSBG, perhaps the largest disk galaxy known.
We attempt to bring new insights on its structure and evolution on the basis of
new images covering a wide range in wavelength. We have computed surface
brightness profiles (and average surface brightnesses in 16 regions of
interest), in six photometric bands (FUV, NUV, u, g, i, z). We compared these
data to various models, testing a variety of assumptions concerning the
formation and evolution of Malin 1. We find that the surface brightness and
color profiles can be reproduced by a long and quiet star-formation history due
to the low surface density; no significant event, such as a collision, is
necessary. Such quiet star formation across the giant disk is obtained in a
disk model calibrated for the Milky Way, but with an angular momentum
approximately 20 times larger. Signs of small variations of the star-formation
history are indicated by the diversity of ages found when different regions
within the galaxy are intercompared.For the first time, panchromatic images of
Malin 1 are used to constrain the stellar populations and the history of this
iconic example among giant LSBGs. Based on our model, the extreme disk of Malin
1 is found to have a long history of relatively low star formation (about 2
Msun/yr). Our model allows us to make predictions on its stellar mass and
metallicity.Comment: Accepted in Astronomy and Astrophysic
HerMES: point source catalogues from Herschel-SPIRE observations II
Key Programme on the Herschel Space Observatory. With a wedding cake survey strategy, it consists of nested fields with varying depth and area totalling ∼380 deg2. In this paper, we present deep point source catalogues extracted from Herschel-Spectral and Photometric Imaging Receiver (SPIRE) observations of all HerMES fields, except for the later addition of the 270 deg2 HerMES Large-Mode Survey (HeLMS) field. These catalogues constitute the second Data Release (DR2) made in 2013 October. A sub-set of these catalogues, which consists of bright sources extracted from Herschel-SPIRE observations completed by 2010 May 1 (covering ∼74 deg2) were released earlier in the first extensive data release in 2012 March. Two different methods are used to generate the point source catalogues, the SUSSEXTRACTOR point source extractor used in two earlier data releases (EDR and EDR2) and a new source detection and photometry method. The latter combines an iterative source detection algorithm, STARFINDER, and a De-blended SPIRE Photometry algorithm. We use end-to-end Herschel-SPIRE simulations with realistic number counts and clustering properties to characterize basic properties of the point source catalogues, such as the completeness, reliability, photometric and positional accuracy. Over 500 000 catalogue entries in HerMES fields (except HeLMS) are released to the public through the HeDAM (Herschel Database in Marseille) website (http://hedam.lam.fr/HerMES)
A Virgo Environmental Survey Tracing Ionised Gas Emission (VESTIGE).XIII. The role of ram-pressure stripping in transforming the diffuse and ultra-diffuse galaxies in the Virgo cluster
Low-surface-brightness galaxies (LSBs) contribute to a significant fraction
of all the galaxies in the Universe. Ultra-diffuse galaxies (UDGs) form a
subclass of LSBs that has attracted a lot of attention in recent years
(although its definition may vary between studies). Although UDGs are found in
large numbers in galaxy clusters, groups, and in the field, their formation and
evolution are still very much debated. Using a comprehensive set of
multiwavelength data from the NGVS (optical), VESTIGE (H narrowband),
and GUViCS (UV) surveys, we studied a sample of 64 diffuse galaxies and UDGs in
the Virgo cluster to investigate their formation history. We analyzed the
photometric colors and surface-brightness profiles of these galaxies and then
compared them to models of galaxy evolution, including ram-pressure stripping
(RPS) events to infer any possible strong interactions with the hot cluster gas
in the past. While our sample consists mainly of red LSBs, which is typical in
cluster environments, we found evidence of a color variation with the
cluster-centric distance. Blue, HI-bearing, star-forming diffuse galaxies are
found at larger distances from the cluster center than the rest of the sample.
The comparison of our models with multifrequency observations suggests that
most of the galaxies of the sample might have undergone a strong RPS event in
their lifetime, on average 1.6 Gyr ago (with a large dispersion, and RPS still
ongoing for some of them). This process resulted in the transformation of
initially gas-rich diffuse blue galaxies into gas-poor and red ones that form
the dominant population now, the more extreme UDGs having undergone the process
in a more distant past on average. The RPS in dense environments could be one
of the major mechanisms for the formation of the large number of quiescent UDGs
we observe in galaxy clusters.Comment: 57 pages, 14 Figures, accepted for publication in A&
HerMES: dust attenuation and star formation activity in ultraviolet-selected samples from z 4 to 1.5
We study the link between observed ultraviolet (UV) luminosity, stellar mass and dust attenuation within rest-frame UV-selected samples at z ∼ 4, ∼ 3 and ∼1.5. We measure by stacking at 250, 350 and 500μm in the Herschel/Spectral and Photometric Imaging Receiver images from the Herschel Multi-Tiered Extragalactic Survey (HerMES) program the average infrared luminosity as a function of stellar mass and UV luminosity. We find that dust attenuation is mostly correlated with stellar mass. There is also a secondary dependence with UV luminosity: at a given UV luminosity, dust attenuation increases with stellar mass, while at a given stellar mass it decreases with UV luminosity. We provide new empirical recipes to correct for dust attenuation given the observed UV luminosity and the stellar mass. Our results also enable us to put new constraints on the average relation between star formation rate (SFR) and stellar mass at z ∼ 4, ∼3 and ∼1.5. The SFR–stellar mass relations are well described by power laws (SFR ∝ M 0.7∗), with the amplitudes being similar at z ∼ 4 and ∼3, and decreasing by a factor of 4 at z ∼ 1.5 at a given stellar mass. We further investigate the evolution with redshift of the specific SFR. Our results are in the upper range of previous measurements, in particular at z ∼ 3, and are consistent with a plateau at 3 < z < 4. Current model predictions (either analytic, semi-analytic or hydrodynamic) are inconsistent with these values, as they yield lower predictions than the observations in the redshift range we explore. We use these results to discuss the star formation histories of galaxies in the framework of the main sequence of star-forming galaxies. Our results suggest that galaxies at high redshift (2.5 < z < 4) stay around 1 Gyr on the main sequence. With decreasing redshift, this time increases such that z = 1 main-sequence galaxies with 10 8 < M ∗ /Mo < 10 10 stay on the main sequence until z = 0
HERMES: unveiling obscured star formation – the far-infrared luminosity function of ultraviolet-selected galaxies at z ∼ 1.5
We study the far-infrared and sub-millimetre properties of a sample of ultraviolet (UV) selected galaxies at z ∼ 1.5. Using stacking at 250, 350 and 500 μm from Herschel Space Observatory Spectral and Photometric Imaging Receiver (SPIRE) imaging of the Cosmological Evolution Survey (COSMOS) field obtained within the Herschel Multi-tiered Extragalactic Survey (HERMES) key programme, we derive the mean infrared (IR) luminosity as a function of both UV luminosity and slope of the UV continuum β. The IR to UV luminosity ratio is roughly constant over most of the UV luminosity range we explore. We also find that the IR to UV luminosity ratio is correlated with β. We observe a correlation that underestimates the correlation derived from low-redshift starburst galaxies, but is in good agreement with the correlation derived from local normal star-forming galaxies. Using these results we reconstruct the IR luminosity function of our UV-selected sample. This luminosity function recovers the IR luminosity functions measured from IR-selected samples at the faintest luminosities (L_(IR) ∼ 10^(11) L_⊙), but might underestimate them at the bright-end (L_(IR) ≳ 5 × 10^(11) L_⊙). For galaxies with 10^(11) < L_(IR)/L_⊙ < 10^(13), the IR luminosity function of an UV selection recovers (given the differences in IR-based estimates) 52–65 to 89–112 per cent of the star formation rate density derived from an IR selection. The cosmic star formation rate density derived from this IR luminosity function is 61–76 to 100–133 per cent of the density derived from IR selections at the same epoch. Assuming the latest Herschel results and conservative stacking measurements, we use a toy model to fully reproduce the far-IR luminosity function from our UV selection at z ∼ 1.5. This suggests that a sample around 4 mag deeper (i.e. reaching u^* ∼ 30 mag) and a large dispersion of the IR to UV luminosity ratio are required
ViCTORIA project: MeerKAT HI observations of the ram pressure stripped galaxy NGC 4523
We present the first results of a 21 cm HI line pilot observation carried out
with MeerKAT in preparation for the ViCTORIA project, an untargeted survey of
the Virgo galaxy cluster. The extraordinary quality of the data in terms of
sensitivity and angular resolution (rms~0.65 mJy beam^-1 at ~27"x39" and 11
km/s resolution) allowed us to detect an extended (~10 kpc projected length)
low column density (N(HI) < 2.5x10^20 cm^-2) HI gas tail associated with the
dwarf irregular galaxy NGC4523 at the northern edge of the cluster. The
morphology of the tail and of the stellar disc suggest that the galaxy is
suffering a hydrodynamic interaction with the surrounding hot intracluster
medium (ICM; ram pressure stripping). The orientation of the trailing tail, the
gradient in the HI gas column density at the interface between the cold ISM and
the hot ICM, the velocity of the galaxy with respect to that of the cluster,
and its position indicate that NGC4523 is infalling for the first time into
Virgo from the NNW background of the cluster. Using a grid of hydrodynamic
simulations we derive the impact parameters with the surrounding ICM, and
estimate that the galaxy will be at pericentre (D~500-600 kpc) in ~1 Gyr, where
ram pressure stripping will be able to remove most, if not all, of its gas. The
galaxy is located on the star formation main sequence when its star formation
rate is derived using Halpha images obtained during the VESTIGE survey,
suggesting that NGC4523 is only at the beginning of its interaction with the
surrounding environment. A few HII regions are detected in the Halpha images
within the HI gas tail outside the stellar disc. Their ages, derived by
comparing their Halpha, FUV, NUV, and optical colours with the predictions of
SED fitting models, are <30 Myr, and suggest that these HII regions have formed
within the stripped gas.Comment: Accepted for publication in A&
HELP: the Herschel Extragalactic Legacy Project
We present the Herschel Extragalactic Legacy Project (HELP). This project collates, curates, homogenizes, and creates derived data products for most of the premium multiwavelength extragalactic data sets. The sky boundaries for the first data release cover 1270 deg2 defined by the Herschel SPIRE extragalactic survey fields; notably the Herschel Multi-tiered Extragalactic Survey (HerMES) and the Herschel Atlas survey (H-ATLAS). Here, we describe the motivation and principal elements in the design of the project. Guiding principles are transparent or ‘open’ methodologies with care for reproducibility and identification of provenance. A key element of the design focuses around the homogenization of calibration, meta data, and the provision of information required to define the selection of the data for statistical analysis. We apply probabilistic methods that extract information directly from the images at long wavelengths, exploiting the prior information available at shorter wavelengths and providing full posterior distributions rather than maximum-likelihood estimates and associated uncertainties as in traditional catalogues. With this project definition paper, we provide full access to the first data release of HELP; Data Release 1 (DR1), including a monolithic map of the largest SPIRE extragalactic field at 385 deg2 and 18 million measurements of PACS and SPIRE fluxes. We also provide tools to access and analyse the full HELP data base. This new data set includes far-infrared photometry, photometric redshifts, and derived physical properties estimated from modelling the spectral energy distributions over the full HELP sky. All the software and data presented is publicly available
CONCERTO: High-fidelity simulation of millimeter line emissions of galaxies and [CII] intensity mapping
The intensity mapping of the [CII] 158-μm line redshifted to the submillimeter window is a promising probe of the za>4 star formation and its spatial distribution into large-scale structures. To prepare the first-generation experiments (e.g., CONCERTO), we need realistic simulations of the submillimeter extragalactic sky in spectroscopy. We present a new version of the simulated infrared dusty extragalactic sky (SIDES) model including the main submillimeter lines around 1 mm (CO, [CII], [CI]). This approach successfully reproduces the observed line luminosity functions. We then use our simulation to generate CONCERTO-like cubes (125-305 GHz) and forecast the power spectra of the fluctuations caused by the various astrophysical components at those frequencies. Depending on our assumptions on the relation between the star formation rate and [CII] luminosity, and the star formation history, our predictions of the za∼6 [CII] power spectrum vary by two orders of magnitude. This highlights how uncertain the predictions are and how important future measurements will be to improve our understanding of this early epoch. SIDES can reproduce the CO shot noise recently measured at a4;100 GHz by the millimeter-wavelength intensity mapping experiment (mmIME). Finally, we compare the contribution of the different astrophysical components at various redshifts to the power spectra. The continuum is by far the brightest, by a factor of three to 100, depending on the frequency. At 300 GHz, the CO foreground power spectrum is higher than the [CII] one for our base scenario. At lower frequencies, the contrast between [CII] and extragalactic foregrounds is even worse. Masking the known galaxies from deep surveys should allow us to reduce the foregrounds to 20% of the [CII] power spectrum up to z∼ 6.5. However, this masking method will not be sufficient at higher redshifts. The code and the products of our simulation are released publicly, and can be used for both intensity mapping experiments and submillimeter continuum and line surveys
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