4,199 research outputs found
Systematic study of high- hadron and photon production with the PHENIX experiment
The suppression of hadrons with large transverse momentum () in
central Au+Au collisions at = 200 GeV compared to a binary
scaled p+p reference is one of the major discoveries at RHIC. To understand the
nature of this suppression PHENIX has performed detailed studies of the energy
and system-size dependence of the suppression pattern, including the first RHIC
measurement near SPS energies. An additional source of information is provided
by direct photons. Since they escape the medium basically unaffected they can
provide a high baseline for hard-scattering processes.
An overview of hadron production at high in different colliding
systems and at energies from GeV will be
given. In addition, the latest direct photon measurements by the PHENIX
experiment shall be discussed.Comment: 6 pages, 3 figures, Proceeding for the Conference Strangeness in
Quark Matter, Levoca, Slovakia, June 24-29, 200
Forces between functionalized silica nanoparticles in solution
To prevent the flocculation and phase separation of nanoparticles in
solution, nanoparticles are often functionalized with short chain surfactants.
Here we present fully-atomistic molecular dynamics simulations which
characterize how these functional coatings affect the interactions between
nanoparticles and with the surrounding solvent. For 5 nm diameter silica
nanoparticles coated with poly(ethylene oxide) (PEO) oligomers in water, we
determined the hydrodynamic drag on two approaching nanoparticles moving
through solvent and on a single nanoparticle as it approaches a planar surface.
In most circumstances, acroscale fluid theory accurately predicts the drag on
these nano-scale particles. Good agreement is seen with Brenner's analytical
solutions for wall separations larger than the soft nanoparticle radius. For
two approaching coated nanoparticles, the solvent-mediated
(velocity-independent) and lubrication (velocity-dependent) forces are purely
repulsive and do not exhibit force oscillations that are typical of uncoated
rigid spheres.Comment: 4 pages, 3 fig
Binary black hole spacetimes with a helical Killing vector
Binary black hole spacetimes with a helical Killing vector, which are
discussed as an approximation for the early stage of a binary system, are
studied in a projection formalism. In this setting the four dimensional
Einstein equations are equivalent to a three dimensional gravitational theory
with a sigma model as the material source. The sigma
model is determined by a complex Ernst equation. 2+1 decompositions of the
3-metric are used to establish the field equations on the orbit space of the
Killing vector. The two Killing horizons of spherical topology which
characterize the black holes, the cylinder of light where the Killing vector
changes from timelike to spacelike, and infinity are singular points of the
equations. The horizon and the light cylinder are shown to be regular
singularities, i.e. the metric functions can be expanded in a formal power
series in the vicinity. The behavior of the metric at spatial infinity is
studied in terms of formal series solutions to the linearized Einstein
equations. It is shown that the spacetime is not asymptotically flat in the
strong sense to have a smooth null infinity under the assumption that the
metric tends asymptotically to the Minkowski metric. In this case the metric
functions have an oscillatory behavior in the radial coordinate in a
non-axisymmetric setting, the asymptotic multipoles are not defined. The
asymptotic behavior of the Weyl tensor near infinity shows that there is no
smooth null infinity.Comment: to be published in Phys. Rev. D, minor correction
Microwave-Assisted Syntheses of Amino Acid Ester Substituted Benzoic Acid Amides: Potential Inhibitors of Human CD81-Receptor HCV-E2 Interaction
Results from our group showed benzyl salicylate to be a moderate inhibitor of the CD81-LEL–HCV-E2 interaction. To increase the biological activity, heterocyclic substituted benzoic acids were coupled to amino acid esters via microwave assisted DCC-reaction. The prepared compounds were tested for their inhibitory potency by means of a fluorescence labeled antibody assay system using HUH7.5 cells
Absolute emission rates of Spontaneous Parametric Down Conversion into single transverse Gaussian modes
We provide an estimate on the absolute values of the emission rate of photon
pairs produced by spontaneous parametric down conversion in a bulk crystal when
all interacting fields are in single transverse Gaussian modes. Both collinear
and non-collinear configurations are covered, and we arrive at a fully
analytical expression for the collinear case. Our results agree reasonably well
with values found in typical experiments, which allows this model to be used
for understanding the dependency on the relevant experimental parameters.Comment: RevTeX, 7 pages, 4 figures; this version has a short section
discussing ratios between pump and target waist
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