91 research outputs found
A candidate redshift z ~ 10 galaxy and rapid changes in that population at an age of 500 Myr
Searches for very-high-redshift galaxies over the past decade have yielded a
large sample of more than 6,000 galaxies existing just 900-2,000 million years
(Myr) after the Big Bang (redshifts 6 > z > 3; ref. 1). The Hubble Ultra Deep
Field (HUDF09) data have yielded the first reliable detections of z ~ 8
galaxies that, together with reports of a gamma-ray burst at z ~ 8.2 (refs 10,
11), constitute the earliest objects reliably reported to date. Observations of
z ~ 7-8 galaxies suggest substantial star formation at z > 9-10. Here we use
the full two-year HUDF09 data to conduct an ultra-deep search for z ~ 10
galaxies in the heart of the reionization epoch, only 500 Myr after the Big
Bang. Not only do we find one possible z ~ 10 galaxy candidate, but we show
that, regardless of source detections, the star formation rate density is much
smaller (~10%) at this time than it is just ~200 Myr later at z ~ 8. This
demonstrates how rapid galaxy build-up was at z ~ 10, as galaxies increased in
both luminosity density and volume density from z ~ 8 to z ~ 10. The 100-200
Myr before z ~ 10 is clearly a crucial phase in the assembly of the earliest
galaxies.Comment: 41 pages, 14 figures, 2 tables, Nature, in pres
Discovery of a bright quasar without a massive host galaxy
Quasars are thought to be powered by the infall of matter onto a supermassive
black hole at the centre of massive galaxies. As the optical luminosity of
quasars exceeds that of their host galaxy, disentangling the two components can
be difficult. This led in the 1990's to the controversial claim of the
discovery of 'naked' quasars. Since then, the connection between quasars and
galaxies has been well established. Here we report on the observation of a
quasar lying at the edge of a gas cloud, whose size is comparable to that of a
small galaxy, but whose spectrum shows no evidence for stars. The gas cloud is
excited by the quasar itself. If a host galaxy is present, it is at least six
times fainter than would normally be expected for such a bright quasar. The
quasar is interacting dynamically with a neighbouring galaxy - which matter
might be feeding the black hole.Comment: 5 figures, published in Natur
Estimating black hole masses of blazars
Estimating black hole masses of blazars is still a big challenge. Because of
the contamination of jets, using the previously suggested size -- continuum
luminosity relation can overestimate the broad line region (BLR) size and black
hole mass for radio-loud AGNs, including blazars. We propose a new relation
between the BLR size and emission line luminosity and present
evidences for using it to get more accurate black hole masses of radio-loud
AGNs. For extremely radio-loud AGNs such as blazars with weak/absent emission
lines, we suggest to use the fundamental plane relation of their elliptical
host galaxies to estimate the central velocity dispersions and black hole
masses, if their velocity dispersions are not known but the host galaxies can
be mapped. The black hole masses of some well-known blazars, such as OJ 287, AO
0235+164 and 3C 66B, are obtained using these two methods and the M -
relation. The implications of their black hole masses on other related studies
are also discussed.Comment: 7 pages, invited talk presented in the workshop on Multiwavelength
Variability of Blazars (Guangzhou, China, Sept. 22-24, 2010). To be published
in the Journal of Astrophysics and Astronom
Early star-forming galaxies and the reionization of the Universe
Star forming galaxies represent a valuable tracer of cosmic history. Recent
observational progress with Hubble Space Telescope has led to the discovery and
study of the earliest-known galaxies corresponding to a period when the
Universe was only ~800 million years old. Intense ultraviolet radiation from
these early galaxies probably induced a major event in cosmic history: the
reionization of intergalactic hydrogen. New techniques are being developed to
understand the properties of these most distant galaxies and determine their
influence on the evolution of the universe.Comment: Review article appearing in Nature. This posting reflects a submitted
version of the review formatted by the authors, in accordance with Nature
publication policies. For the official, published version of the review,
please see http://www.nature.com/nature/archive/index.htm
Evolution of star formation in the UKIDSS Ultra Deep Survey Field - I. Luminosity functions and cosmic star formation rate out to z = 1.6
We present new results on the cosmic star formation history in the Subaru/XMMâNewton Deep Survey (SXDS)âUltra Deep Survey (UDS) field out to z = 1.6. We compile narrowband
data from the Subaru Telescope and the Visible and Infrared Survey Telescope for Astronomy (VISTA) in conjunction with broad-band data from the SXDS and UDS, to make a selection of 5725 emission-line galaxies in 12 redshift slices, spanning 10 Gyr of cosmic time. We determine photometric redshifts for the sample using 11-band photometry, and use
a spectroscopically confirmed subset to fine tune the resultant redshift distribution. We use the maximum-likelihood technique to determine luminosity functions in each redshift slice and model the selection effects inherent in any narrow-band selection statistically, to obviate the retrospective corrections ordinarily required. The deep narrow-band data are sensitive to very low star formation rates (SFRs), and allow an accurate evaluation of the faint end slope of the Schechter function, α. We find that α is particularly sensitive to the assumed faintest
broad-band magnitude of a galaxy capable of hosting an emission line, and propose that this limit should be empirically motivated. For this analysis, we base our threshold on the limiting observed equivalent widths of emission lines in the local Universe. We compute the
characteristic SFR of galaxies in each redshift slice, and the integrated SFR density, ÏSFR. We find our results to be in good agreement with the literature and parametrize the evolution of the SFR density as ÏSFR â (1 + z)4.58 confirming a steep decline in star formation activity since z ⌠1.6.
Keywords: surveys â galaxies: evolution â galaxies: formation â galaxies: high-redshift â
galaxies: star formation â cosmology: observations
A distortion of very--high--redshift galaxy number counts by gravitational lensing
The observed number counts of high-redshift galaxy candidates have been used
to build up a statistical description of star-forming activity at redshift z >~
7, when galaxies reionized the Universe. Standard models predict that a high
incidence of gravitational lensing will probably distort measurements of flux
and number of these earliest galaxies. The raw probability of this happening
has been estimated to be ~ 0.5 percent, but can be larger owing to
observational biases. Here we report that gravitational lensing is likely to
dominate the observed properties of galaxies with redshifts of z >~ 12, when
the instrumental limiting magnitude is expected to be brighter than the
characteristic magnitude of the galaxy sample. The number counts could be
modified by an order of magnitude, with most galaxies being part of multiply
imaged systems, located less than 1 arcsec from brighter foreground galaxies at
z ~ 2. This lens-induced association of high-redshift and foreground galaxies
has perhaps already been observed among a sample of galaxy candidates
identified at z ~ 10.6. Future surveys will need to be designed to account for
a significant gravitational lensing bias in high-redshift galaxy samples.Comment: Nature, Jan. 13, 2011 issue (in press
The morphologies of massive galaxies at 1 < z < 3 in the CANDELS-UDS field : compact bulges, and the rise and fall of massive discs
We have used high-resolution, Hubble Space Telescope, near-infrared imaging to conduct a detailed analysis of the morphological properties of the most massive galaxies at high redshift, modelling the WFC3/IR H-160-band images of the similar or equal to 200 galaxies in the CANDELS-UDS field with photometric redshifts 1 10(11)M(circle dot). We have explored the results of fitting single-Sersic and bulge+disc models, and have investigated the additional errors and potential biases introduced by uncertainties in the background and the on-image point spread function. This approach has enabled us to obtain formally acceptable model fits to the WFC3/IR images of > 90 per cent of the galaxies. Our results indicate that these massive galaxies at 1 2 the compact bulges display effective radii a factor of similar or equal to 4 smaller than local ellipticals of comparable mass. These trends also appear to extend to the bulge components of disc-dominated galaxies. In addition, we find that, while such massive galaxies at low redshift are generally bulge-dominated, at redshifts 1 2 they are mostly disc-dominated. The majority of the disc-dominated galaxies are actively forming stars, although this is also true for many of the bulge-dominated systems. Interestingly, however, while most of the quiescent galaxies are bulge-dominated, we find that a significant fraction (25-40 per cent) of the most quiescent galaxies, with specific star formation rates sSFR < 10(-10) yr(-1), have disc-dominated morphologies. Thus, while our results show that the massive galaxy population is undergoing dramatic changes at this crucial epoch, they also suggest that the physical mechanisms which quench star formation activity are not simply connected to those responsible for the morphological transformation of massive galaxies into present-day giant ellipticals
The NIRVANDELS Survey: A robust detection of α-enhancement in star-forming galaxies at z â3.4
We present results from the NIRVANDELS survey on the gas-phase metallicity (Zg, tracing O/H) and stellar metallicity (Zâ, tracing Fe/H) of 33 star-forming galaxies at redshifts 2.95 3, finding (O/Fe) = 2.54 ± 0.38 Ă (O/Fe)â, with no clear dependence on Mâ
The ASTRODEEP Frontier Fields catalogues: III. Multiwavelength photometry and rest-frame properties of MACS-J0717 and MACS-J1149
We present the multiwavelength photometry of two Frontier Fields massive
galaxy clusters MACS-J0717 and MACS-J1149 and their parallel fields, ranging
from HST to ground based K and Spitzer IRAC bands, and the public release of
photometric redshifts and rest frame properties of galaxies found in cluster
and parallel pointings. This work was done within ASTRODEEP project and aims to
provide a reference for future investigations of the extragalactic populations.
To fully exploit the depth of the images and detect faint sources we used an
accurate procedure which carefully removes the foreground light of bright
cluster sources and the intra-cluster light thus enabling detection and
measurement of accurate fluxes in crowded cluster regions. This same procedure
has been successfully used to derive the photometric catalogue of MACS-J0416
and Abell-2744.
The obtained multi-band photometry was used to derive photometric redshifts,
magnification and physical properties of sources. In line with the first two FF
catalogues released by ASTRODEEP, the photometric redshifts reach 4
accuracy. Moreover we extend the presently available samples to galaxies
intrinsically as faint as H16032-34 mag thanks the magnification factors
induced to strong gravitational lensing. Our analysis allows us to probe galaxy
masses larger then 10 M and/or SFR=0.1-1M/yr out to
redshift z
MOONRISE: The Main MOONS GTO Extragalactic Survey
The MOONS instrument possesses an exceptional combination of large
multiplexing, high sensitivity, broad simultaneous spectral coverage (from
optical to near-infrared bands), large patrol area and high fibre density.
These properties provide the unprecedented potential of enabling, for the very first time, SDSS-like surveys around Cosmic Noon (z~1-2.5), when the star formation rate in the Universe peaked. The high-quality spectra delivered by MOONS will sample the same nebular and stellar diagnostics observed in
extensive surveys of local galaxies, providing an accurate and consistent
description of the evolution of various physical properties of galaxies, and
hence a solid test of different scenarios of galaxy formation and
transformation. Most importantly, by spectroscopically identifying hundreds of thousands of galaxies at high redshift, the MOONS surveys will be capable of determining the environments in which primeval galaxies lived and will reveal how such environments affected galaxy evolution. In this article, we
specifically focus on the main Guaranteed Time Observation (GTO) MOONS
extragalactic survey, MOONRISE, by providing an overview of its scientific
goals and observing strategy
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