440 research outputs found
An X-ray/optical study of the geometry and dynamics of MACS J0140.0-0555, a massive post-collision cluster merger
We investigate the physical properties, geometry and dynamics of the massive
cluster merger MACS J0140.0-0555 (z=0.451) using X-ray and optical diagnostics.
Featuring two galaxy overdensities separated by about 250 kpc in projection on
the sky, and a single peak in the X-ray surface brightness distribution located
between them, MACS J0140.0-0555 shows the tell-tale X-ray/optical morphology of
a binary, post-collision merger. Our spectral analysis of the X-ray emission,
as measured by our Chandra ACIS-I observation of the system, finds the
intra-cluster medium to be close to isothermal (~8.5 keV) with no clear signs
of cool cores or shock fronts. Spectroscopic follow-up of galaxies in the field
of MACS J0140.0-0555 yields a velocity dispersion of 875 (+70/-100) km/s
(n_z=66) and no significant evidence of bimodality or substructure along the
line of sight. In addition, the difference in radial velocity between the
brightest cluster galaxies of the two sub-clusters of 144+/-25 km/s is small
compared to typical collision velocities of several 1000 km/s. A strongly
lensed background galaxy at z=0.873 (which features variable X-ray emission
from an active nucleus) provides the main constraint on the mass distribution
of the system. We measure M(<75 kpc) = (5.6+/- 0.5)*10^13 M_sun for the
north-western cluster component and a much less certain estimate of
(1.5-3)*10^13 M_sun for the south-eastern subcluster. These values are in good
agreement with our X-ray mass estimates which yield a total mass of MACS
J0140.0-0555 of M(<r_500) ~ (6.8-9.1)*10^14 M_sun. ......Comment: 11 pages, 8 figures, and 2 tables. Accepted for publication in MNRA
The three-dimensional geometry and merger history of the massive galaxy cluster MACS J0358.8-2955
We present results of a combined X-ray/optical analysis of the dynamics of
the massive cluster MACS J0358.8-2955 (z=0.428) based on observations with the
Chandra X-ray Observatory, the Hubble Space Telescope, and the Keck-I telescope
on Mauna Kea. MACS J0358.8-2955 is found to be one of the most X-ray luminous
clusters known at z>0.3, featuring L_X(<r_500) = 4.24*10^45 erg/s, kT = (9.55
+0.58/-0.37) keV, M^{3D}_{gas}(<r_500) = (9.18+/-1.45)*10^13 M_sun, and
M^{3D}_{tot}(<r_500) = (1.12+/-0.18)*10^15 M_sun. The system's high velocity
dispersion of (1440 +130/-110) km/s (890 km/s when the correct relativistic
equation is used), however, is inflated by infall along the line of sight, as
the result of a complex merger of at least three sub-clusters. One collision
proceeds close to head-on, while the second features a significant impact
parameter. The temperature variations in the intra-cluster gas, two tentative
cold fronts, the radial velocities measured for cluster galaxies, and the small
offsets between collisional and non-collisional cluster components all suggest
that both merger events are observed close to core passage and along axes that
are greatly inclined with respect to the plane of the sky. A strong-lensing
analysis of the system anchored upon three triple-image systems (two of which
have spectroscopic redshifts) yields independent constraints on the mass
distribution. For a gas fraction of 8.2%, the resulting strong-lensing mass
profile is in good agreement with our X-ray estimates, and the details of the
mass distribution are fully consistent with our interpretation of the
three-dimensional merger history of this complex system.Comment: 17 pages, 17 figures, and 4 tables. Accepted for publication in MNRA
A systematic search for lensed high-redshift galaxies in HST images of MACS clusters
International audienceWe present the results of a 135-arcmin 2 search for high-redshift galaxies lensed by 29 clusters from the MAssive Cluster and extended MAssive Cluster Surveys. We use relatively shallow images obtained with the Hubble Space Telescope in four passbands, namely, F606W, F814W, F110W, and F140W. We identify 130 F814W dropouts as candidates for galaxies at z 6. In order to fit the available broad-band photometry to galaxy spectral energy distribution (SED) templates, we develop a prior for the level of dust extinction at various redshifts. We also investigate the systematic biases incurred by the use of SED-fit software. The fits we obtain yield an estimate of 20 Lyman-break galaxies with photometric redshifts from z ⌠7 to 9. In addition, our survey has identified over 100 candidates with a significant probability of being lower redshift (z ⌠2) interlopers. We conclude that even as few as four broad-band filters â when combined with fitting the SEDs â are capable of isolating promising objects. Such surveys thus allow one both to probe the bright end (M 1500 â19) of the high-redshift ultraviolet luminosity function and to identify candidate massive evolved galaxies at lower redshifts
Thirty-fold: Extreme gravitational lensing of a quiescent galaxy at
We report the discovery of eMACSJ1341-QG-1, a quiescent galaxy at
located behind the massive galaxy cluster eMACSJ1341.92442 (). The
system was identified as a gravitationally lensed triple image in Hubble Space
Telescope images obtained as part of a snapshot survey of the most X-ray
luminous galaxy clusters at and spectroscopically confirmed in
ground-based follow-up observations with the ESO/X-Shooter spectrograph. From
the constraints provided by the triple image, we derive a first, crude model of
the mass distribution of the cluster lens, which predicts a gravitational
amplification of a factor of 30 for the primary image and a factor of
6 for the remaining two images of the source, making eMACSJ1341-QG-1 by
far the most strongly amplified quiescent galaxy discovered to date. Our
discovery underlines the power of SNAPshot observations of massive, X-ray
selected galaxy clusters for lensing-assisted studies of faint background
populations
ROSAT and BeppoSAX evidence of soft X-ray excess emission in the Shapley supercluster: A3571, A3558, A3560 and A3562
Excess soft X-ray emission in clusters of galaxies has so far been detected
for sources that lie along lines-of-sight to very low Galactic HI column
density (such as Coma, A1795, A2199 and Virgo, N_H 0.9-2.0 10^{20} cm-2). We
show that the cluster soft excess emission can be investigated even at higher
N_H, which provides an opportunity for investigating soft X-ray emission
characteristics among a large number of clusters.
The ROSAT PSPC analysis of some members of the Shapley concentration (A3571,
A3558, A3560 and A3562, at N_H 4-4.5 10^{20} cm-2) bears evidence for excess
emission in the 1/4 keV band. We were able to confirm the finding for the case
of A3571 by a pointed SAX observation. Within the current sample the soft X-ray
flux is again found to be consistently above the level expected from a hot
virialized plasma. The data quality is however insufficient to enable a
discrimination between alternative models of the excess low energy flux.Comment: ApJL in press, 5 figure
Relating Corroded Seven-Strand, Posttensioned Cable Cross-Sectional Properties to Load Capacity
Multistrand anchors have seen widespread use, providing strength and stability at hydraulic Corps facilities. However, these steel tendons are subject to strength reduction as an effect of corrosion. Methods for evaluating the corroded cable strength do not exist to accurately estimate the time until tendon cables would have to be replaced (at great expense). The following five research tasks are used to address this deficiency: laboratory accelerated corrosion; pull-tests on pristine and laboratory corroded cables; optical scanning; data collection correlated with cross-sectional properties of cables; and development of a method to relate this data to the field. The pull-tests provide measured capacities for seven-strand, posttensioned (PT) cables. An optical scan of the corroded cables provides cross-sectional properties of individual wires within the pulled cables. Trendlines are established for the related peak cable capacities and cross-sectional properties in an effort to determine their correlations. Trendlines for minimum wire area and second-moment short axis diameter are found with low error, making them good predictors of loaded cable capacity. This pull-test dataset has been related back to cable failure in the field, assuming a linear rate of corrosion loss for the cross-sectional properties and required PT capacity
Hayek e Mises:: Dos dias em Viena às ConcepçÔes sobre o Processo de Mercado
This article explains Friedrich A. Hayek and Ludwig von Mises personal and professional relationship during the period between the two World Wars, and explains their conceptions of the market process and the role of knowledge, prices and entrepreneurial expectations in tending to bring about competitive market coordination. Besides, it discusses those areas in which their approaches to these issues were complementary but not the same concerning expectations-formation in the market process.O artigo explica a sua relação pessoal e profissional entre Friedrich A. Hayek e Ludwig von Mises durante o perĂodo entre as duas Guerras Mundiais e, tambĂ©m explica as concepçÔes destes dois economistas sobre processo de mercado, papel do conhecimento, preços e expectativas empreendedoras na tendĂȘncia de produzir coordenação do mercado competitivo. AlĂ©m disso, discute aquelas ĂĄreas nas quais suas abordagens para tais questĂ”es eram complementares, o mesmo nĂŁo acontecendo no que diz respeito Ă formação de expectativas no processo de mercado
Generalized Berry Conjecture and mode correlations in chaotic plates
We consider a modification of the Berry Conjecture for eigenmode statistics
in wave-bearing systems. The eigenmode correlator is conjectured to be
proportional to the imaginary part of the Green's function. The generalization
is applicable not only to scalar waves in the interior of homogeneous isotropic
systems where the correlator is a Bessel function, but to arbitrary points of
heterogeneous systems as well. In view of recent experimental measurements,
expressions for the intensity correlator in chaotic plates are derived.Comment: 5 pages, 1 figur
Triaxial strong-lensing analysis of the z > 0.5 MACS clusters: the mass-concentration relation
The high concentrations derived for several strong-lensing clusters present a
major inconsistency between theoretical LambdaCDM expectations and
measurements. Triaxiality and orientation biases might be at the origin of this
disagreement, as clusters elongated along the line-of-sight would have a
relatively higher projected mass density, boosting the resulting lensing
properties. Analyses of statistical samples can probe further these effects and
crucially reduce biases. In this work we perform a fully triaxial
strong-lensing analysis of the 12 MACS clusters at z > 0.5, a complete X-ray
selected sample, and fully account for the impact of the intrinsic 3D shapes on
their strong lensing properties. We first construct strong-lensing mass models
for each cluster based on multiple-images, and fit projected ellipsoidal
Navarro-Frenk-White halos with arbitrary orientations to each mass
distribution. We then invert the measured surface mass densities using Bayesian
statistics. Although the Einstein radii of this sample are significantly larger
than predicted by LambdaCDM, here we find that the mass-concentration relation
is in full agreement with results from N-body simulations. The z > 0.5 MACS
clusters suffer from a moderate form of orientation bias as may be expected for
X-ray selected samples. Being mostly unrelaxed, at a relatively high redshift,
with high X-ray luminosity and noticeable substructures, these clusters may lie
outside the standard concentration-Einstein radius relation. Our results remark
the importance of triaxiality and properly selected samples for understanding
galaxy clusters properties, and suggest that higher-z, unrelaxed
low-concentration clusters form a different class of prominent strong
gravitational lenses. Arc redshift confirmation and weak lensing data in the
outer region are needed to further refine our analysis.Comment: 12 pages, 12 figures; in press on MNRA
LoCuSS: First Results from Strong-lensing Analysis of 20 Massive Galaxy Clusters at z~0.2
We present a statistical analysis of a sample of 20 strong lensing clusters
drawn from the Local Cluster Substructure Survey (LoCuSS), based on high
resolution Hubble Space Telescope imaging of the cluster cores and follow-up
spectroscopic observations using the Keck-I telescope. We use detailed
parameterized models of the mass distribution in the cluster cores, to measure
the total cluster mass and fraction of that mass associated with substructures
within R<250kpc.These measurements are compared with the distribution of
baryons in the cores, as traced by the old stellar populations and the X-ray
emitting intracluster medium. Our main results include: (i) the distribution of
Einstein radii is log-normal, with a peak and 1sigma width of
=1.16+/-0.28; (ii) we detect an X-ray/lensing mass discrepancy of
=1.3 at 3 sigma significance -- clusters with larger substructure
fractions displaying greater mass discrepancies, and thus greater departures
from hydrostatic equilibrium; (iii) cluster substructure fraction is also
correlated with the slope of the gas density profile on small scales, implying
a connection between cluster-cluster mergers and gas cooling. Overall our
results are consistent with the view that cluster-cluster mergers play a
prominent role in shaping the properties of cluster cores, in particular
causing departures from hydrostatic equilibrium, and possibly disturbing cool
cores. Our results do not support recent claims that large Einstein radius
clusters present a challenge to the CDM paradigm.Comment: 28 pages, 14 figures, accepted for publication in MNRAS, replaced
with accepted versio
- âŠ