1,364 research outputs found
Measuring the Redshift Evolution of Clustering: the Hubble Deep Field South
We present an analysis of the evolution of galaxy clustering in the redshift
interval 0<z<4.5 in the HDF-S. The HST optical data are combined with infrared
ISAAC/VLT observations, and photometric redshifts are used for all the galaxies
brighter than I_AB<27.5. The clustering signal is obtained in different
redshift bins using two different approaches: a standard one, which uses the
best redshift estimate of each object, and a second one, which takes into
account the redshift probability function of each object. This second method
makes it possible to improve the information in the redshift intervals where
contamination from objects with insecure redshifts is important. With both
methods, we find that the clustering strength up to z~3.5 in the HDF-S is
consistent with the previous results in the HDF-N. While at redshift lower than
z~1 the HDF galaxy population is un/anti-biased (b<1) with respect to the
underlying dark matter, at high redshift the bias increases up to b~2-3,
depending on the cosmological model. These results support previous claims
that, at high redshift, galaxies are preferentially located in massive haloes,
as predicted by the biased galaxy formation scenario. The impact of cosmic
errors on our analyses has been quantified, showing that errors in the
clustering measurements in the HDF surveys are indeed dominated by shot-noise
in most regimes. Future observations with instruments like the ACS on HST will
improve the S/N by at least a factor of two and more detailed analyses of the
errors will be required. In fact, pure shot-noise will give a smaller
contribution with respect to other sources of errors, such as finite volume
effects or non-Poissonian discreteness effects.Comment: 17 pages Latex, with 12 PostScript figures, Accepted for publication
in MNRA
Search for semiclassical-gravity effects in relativistic stars
We discuss the possible influence of gravity in the neutronization process,
, which is particularly important as a cooling mechanism
of neutron stars. Our approach is semiclassical in the sense that leptonic
fields are quantized on a classical background spacetime, while neutrons and
protons are treated as excited and unexcited nucleon states, respectively. We
expect gravity to have some influence wherever the energy content carried by
the in-state is barely above the neutron mass. In this case the emitted
neutrinos would be soft enough to have a wavelength of the same order as the
space curvature radius.Comment: 10 pages (REVTEX
Decay of protons and neutrons induced by acceleration
We investigate the decay of accelerated protons and neutrons. Calculations
are carried out in the inertial and coaccelerated frames. Particle
interpretation of these processes are quite different in each frame but the
decay rates are verified to agree in both cases. For sake of simplicity our
calculations are performed in a two-dimensional spacetime since our conclusions
are not conceptually affected by this.Comment: 18 pages (REVTEX), 3 figure
Ultra-faint high-redshift galaxies in the Frontier Fields
By combining cosmological simulations with Frontier Fields project lens
models we find that, in the most optimistic case, galaxies as faint as (AB magnitude at ) can be detected in the
Frontier Fields. Such faint galaxies are hosted by dark matter halos of mass
and dominate the ionizing photon budget over currently
observed bright galaxies, thus allowing for the first time the investigation of
the dominant reionization sources. In addition, the observed number of these
galaxies can be used to constrain the role of feedback in suppressing star
formation in small halos: for example, if galaxy formation is suppressed in
halos with circular velocity km s, galaxies fainter than
should not be detected in the FFs.Comment: 5 pages, 7 figures, accepted for publication in MNRAS Letter
The assembly of massive galaxies from NIR observations of the Hubble Deep Field South
We use a deep K(AB)<25 galaxy sample in the Hubble Deep Field South to trace
the evolution of the cosmological stellar mass density from z~ 0.5 to z~3. We
find clear evidence for a decrease of the average stellar mass density at high
redshift, 2<z<3.2, that is 15^{+25}_{-5}% of the local value, two times higher
than what observed in the Hubble Deep Field North. To take into account for the
selection effects, we define a homogeneous subsample of galaxies with
10^{10}M_\odot \leq M_* \leq 10^{11}M_\odot: in this sample, the mass density
at z>2 is 20^{+20}_{-5} % of the local value. In the mass--limited subsample at
z>2, the fraction of passively fading galaxies is at most 25%, although they
can contribute up to about 40% of the stellar mass density. On the other hand,
star--forming galaxies at z>2 form stars with an average specific rate at least
~4 x10^{-10} yr, 3 times higher than the z<~1 value. This
implies that UV bright star--forming galaxies are substancial contributors to
the rise of the stellar mass density with cosmic time. Although these results
are globally consistent with --CDM scenarios, the present rendition of
semi analytic models fails to match the stellar mass density produced by more
massive galaxies present at z>2.Comment: Accepted for publication on ApJLetter
The Great Observatories Origins Deep Survey - VLT/VIMOS Spectroscopy in the GOODS-South Field: Part II
We present the full data set of the VIMOS spectroscopic campaign of the
ESO/GOODS program in the CDFS, which complements the FORS2 ESO/GOODS
spectroscopic campaign. The GOODS/VIMOS spectroscopic campaign is structured in
two separate surveys using two different VIMOS grisms. The VIMOS Low Resolution
Blue (LR-Blue) and Medium Resolution (MR) orange grisms have been used to cover
different redshift ranges. The LR-Blue campaign is aimed at observing galaxies
mainly at 1.8<z<3.5, while the MR campaign mainly aims at galaxies at z<1 and
Lyman Break Galaxies (LBGs) at z>3.5. The full GOODS/VIMOS spectroscopic
campaign consists of 20 VIMOS masks. This release adds 8 new masks to the
previous release (12 masks, Popesso et al. 2009). In total we obtained 5052
spectra, 3634 from the 10 LR-Blue masks and 1418 from the 10 MR masks. A
significant fraction of the extracted spectra comes from serendipitously
observed sources: ~21% in the LR-Blue and ~16% in the MR masks. We obtained
2242 redshifts in the LR-Blue campaign and 976 in the MR campaign for a total
success rate of 62% and 69% respectively, which increases to 66% and 73% if
only primary targets are considered. The typical redshift uncertainty is
estimated to be ~0.0012 (~255 km/s) for the LR-Blue grism and ~0.00040 (~120
km/s) for the MR grism. By complementing our VIMOS spectroscopic catalog with
all existing spectroscopic redshifts publicly available in the CDFS, we
compiled a redshift master catalog with 7332 entries, which we used to
investigate large scale structures out to z~3.7. We produced stacked spectra of
LBGs in a few bins of equivalent width (EW) of the Ly-alpha and found evidence
for a lack of bright LBGs with high EW of the Ly-alpha. Finally, we obtained
new redshifts for 12 X-ray sources of the CDFS and extended-CDFS.Comment: 22 pages, 20 figures, accepted for publication on Astronomy and
Astrophysics, catalogs and data products are available at
http://archive.eso.org/cms/eso-data/data-packages/goods-vimos-spectroscopy-data-release-version-2.0/,
for ESO-GOODS related material consult
http://www.eso.org/sci/activities/projects/goods
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