27,192 research outputs found
Herschel-ATLAS: Blazars in the science demonstration phase field
To investigate the poorly constrained sub-mm counts and spectral properties of blazars we searched for these in the Herschel-ATLAS (H-ATLAS) science demonstration phase (SDP) survey catalog.â©â©We cross-matched 500 ÎŒm sources brighter than 50 mJy with the FIRST radio catalogue. We found two blazars, both previously known. Our study is among the first blind blazar searches at sub-mm wavelengths, i.e., in the spectral regime where little is still known about the blazar SEDs, but where the synchrotron peak of the most luminous blazars is expected to occur. Our early results are consistent with educated extrapolations of lower frequency counts and question indications of substantial spectral curvature downwards and of spectral upturns at mm wavelengths. One of the two blazars is identified with a Fermi/LAT Îł-ray source and a WMAP source. The physical parameters of the two blazars are briefly discussed. These observations demonstrate that the H-ATLAS survey will provide key information about the physics of blazars and their contribution to sub-mm counts
X-Ray Properties of the First Sunyaev-Zel'dovich Effect Selected Galaxy Cluster Sample from the South Pole Telescope
We present results of X-ray observations of a sample of 15 clusters selected via their imprint on the cosmic microwave background from the thermal Sunyaev-Zel'dovich (SZ) effect. These clusters are a subset of the first SZ-selected cluster catalog, obtained from observations of 178 deg^2
of sky surveyed by the South Pole Telescope (SPT). Using X-ray observations with Chandra and XMM-Newton, we estimate the temperature, T_X, and mass, M_g, of the intracluster medium within r_500 for each cluster. From these, we calculate Y_X = M_(g)T_X and estimate the total cluster mass using an M_(500)-Y_X scaling relation measured from previous X-ray studies. The integrated Comptonization, Y SZ, is derived from the SZ measurements, using additional information from the X-ray-measured gas density profiles and a universal temperature profile. We calculate scaling relations between the X-ray and SZ observables and find results generally consistent with other measurements and the expectations from simple self-similar behavior. Specifically, we fit a Y_(SZ)-Y_X relation and find a normalization of 0.82 ± 0.07, marginally consistent with the predicted ratio of Y_(SZ)/Y_X = 0.91 ± 0.01 that would be expected from the density and temperature models used in this work. Using the Y_X-derived mass estimates, we fit a
Y_(SZ)-M_500 relation and find a slope consistent with the self-similar expectation of Y_(SZ) â M^(5/3) with a normalization consistent with predictions from other X-ray studies. We find that the SZ mass estimates, derived from cosmological simulations of the SPT survey, are lower by a factor of 0.78 ± 0.06 relative to the X-ray mass estimates. This offset is at a level of 1.3Ï when considering the
~15% systematic uncertainty for the simulation-based SZ masses. Overall, the X-ray measurements confirm that the scaling relations of the SZ-selected clusters are consistent with the properties of other X-ray-selected samples of massive clusters, even allowing for the broad redshift range (0.29 < z < 1.08) of the sample
Spitzer Imaging of Herschel-ATLAS Gravitationally Lensed Submillimeter Sources
We present physical properties of two submillimeter selected gravitationally lensed sources, identified in the
Herschel Astrophysical Terahertz Large Area Survey. These submillimeter galaxies (SMGs) have flux densities
>100 mJy at 500 ÎŒm, but are not visible in existing optical imaging. We fit light profiles to each component of
the lensing systems in Spitzer IRAC 3.6 and 4.5 ÎŒm data and successfully disentangle the foreground lens from
the background source in each case, providing important constraints on the spectral energy distributions (SEDs)
of the background SMG at rest-frame opticalânear-infrared wavelengths. The SED fits show that these two SMGs
have high dust obscuration with A_V ~ 4â5 and star formation rates of ~100M_â yr^(â1). They have low gas fractions
and low dynamical masses compared with 850 ÎŒm selected galaxies
Signatures of the self-modulation instability of relativistic proton bunches in the AWAKE experiment
We investigate numerically the detection of the self-modulation instability
in a virtual detector located downstream from the plasma in the context of
AWAKE. We show that the density structures, appearing in the temporally
resolving virtual detector, map the transverse beam phase space distribution at
the plasma exit. As a result, the proton bunch radius that appears to grow
along the bunch in the detector results from the divergence increase along the
bunch, related with the spatial growth of the self-modulated wakefields. In
addition, asymmetric bunch structures in the detector are a result of
asymmetries of the bunch divergence, and do not necessarily reflect asymmetric
beam density distributions in the plasma.Comment: Accepted for publication in NIM-A for the proceedings of the 3rd
European Advanced Accelerator Workshop. 5 pages, 2 figure
Discovery and Cosmological Implications of SPT-CL J2106-5844, the Most Massive Known Cluster at z>1
Using the South Pole Telescope (SPT), we have discovered the most massive known galaxy cluster at z>1, SPT-CL J2106-5844. In addition to producing a strong Sunyaev-Zel'dovich (SZ) effect signal, this system is a luminous X-ray source and its numerous constituent galaxies display spatial and color clustering, all indicating the presence of a massive galaxy cluster. Very Large Telescope and Magellan spectroscopy of 18 member galaxies shows that the cluster is at z = 1.132^(+0.002)_(â0.003). Chandra observations obtained through a combined HRC-ACIS GTO program reveal an X-ray spectrum with an Fe K line redshifted by z = 1.18 ± 0.03. These redshifts are consistent with the galaxy colors found in optical, near-infrared, and mid-infrared imaging. SPT-CL J2106-5844 displays extreme X-ray properties for a cluster having a core-excluded temperature of T_X = 11.0^(+2.6)_(â1.9) keV and a luminosity (within r _(500)) of LX (0.5-2.0 keV) = (13.9 ± 1.0) Ă 10_(44) erg s^(â1). The combined mass estimate from measurements of the SZ effect and X-ray data is M_(200) = (1.27 ± 0.21) Ă 10^(15) h ^(â1) _(70) M_â. The discovery of such a massive gravitationally collapsed system at high redshift provides an interesting laboratory for galaxy formation and evolution, and is a probe of extreme perturbations of the primordial matter density field. We discuss the latter, determining that, under the assumption of ÎCDM cosmology with only Gaussian perturbations, there is only a 7% chance of finding a galaxy cluster similar to SPT-CL J2106-5844 in the 2500 deg^2 SPT survey region and that only one such galaxy cluster is expected in the entire sky
The Eastward Enlargement of the Eurozone: Trade and FDI
Trade and FDI, Economic Integration
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