5,657 research outputs found
Dynamics of a suspension of interacting yolk-shell particles
In this work we study the self-diffusion properties of a liquid of hollow
spherical particles (shells)bearing a smaller solid sphere in their interior
(yolks). We model this system using purely repulsive hard-body interactions
between all (shell and yolk) particles, but assume the presence of a background
ideal solvent such that all the particles execute free Brownian motion between
collisions,characterized by short-time self-diffusion coefficients D0s for the
shells and D0y for the yolks. Using a softened version of these interparticle
potentials we perform Brownian dynamics simulations to determine the mean
squared displacement and intermediate scattering function of the yolk-shell
complex. These results can be understood in terms of a set of effective
Langevin equations for the N interacting shell particles, pre-averaged over the
yolks' degrees of freedom, from which an approximate self-consistent
description of the simulated self-diffusion properties can be derived. Here we
compare the theoretical and simulated results between them, and with the
results for the same system in the absence of yolks. We find that the yolks,
which have no effect on the shell-shell static structure, influence the dynamic
properties in a predictable manner, fully captured by the theory.Comment: 5 pages, 1 figur
Positivity Constraints for Spin-Dependent Parton Distributions
We derive new positivity constraints on the spin-dependent structure
functions of the nucleon. These model independent results reduce conside\-rably
their domain of allowed values, in particular for the chiral-odd parton
distribution .Comment: 8 pages,CPT-94/P.3059,LaTex,3 fig available on cpt.univ-mrs.fr
directory pub/preprints/94/fundamental-interactions/94-P.305
Interference Fragmentation Functions and the Nucleon's Transversity
We introduce twist-two quark interference fragmentation functions in helicity
density matrix formalism and study their physical implications. We show how the
nucleon's transversity distribution can be probed through the final state
interaction between two mesons (, , or ) produced
in the current fragmentation region in deep inelastic scattering on a
transversely polarized nucleon.Comment: Final version to be published in Phys. Rev. Let
Photometric identification of blue horizontal branch stars
We investigate the performance of some common machine learning techniques in
identifying BHB stars from photometric data. To train the machine learning
algorithms, we use previously published spectroscopic identifications of BHB
stars from SDSS data. We investigate the performance of three different
techniques, namely k nearest neighbour classification, kernel density
estimation and a support vector machine (SVM). We discuss the performance of
the methods in terms of both completeness and contamination. We discuss the
prospect of trading off these values, achieving lower contamination at the
expense of lower completeness, by adjusting probability thresholds for the
classification. We also discuss the role of prior probabilities in the
classification performance, and we assess via simulations the reliability of
the dataset used for training. Overall it seems that no-prior gives the best
completeness, but adopting a prior lowers the contamination. We find that the
SVM generally delivers the lowest contamination for a given level of
completeness, and so is our method of choice. Finally, we classify a large
sample of SDSS DR7 photometry using the SVM trained on the spectroscopic
sample. We identify 27,074 probable BHB stars out of a sample of 294,652 stars.
We derive photometric parallaxes and demonstrate that our results are
reasonable by comparing to known distances for a selection of globular
clusters. We attach our classifications, including probabilities, as an
electronic table, so that they can be used either directly as a BHB star
catalogue, or as priors to a spectroscopic or other classification method. We
also provide our final models so that they can be directly applied to new data.Comment: To appear in A&A. 19 pages, 22 figures. Tables 7, A3 and A4 available
electronically onlin
Effect of laser irradiation on the tribological properties of RFsputtered nickel oxide (NiO) thin films
The present work aims at investigating the effect of laser irradiation on the
tribological properties of RF-sputtered NiO thin films deposited on industrial
grade aluminum substrate. A semiconductor laser based on Nd:YAG operating at
its 4th harmonic wavelength, lambda = 266 nm with varying laser fluence and
spot size of about 5 um is irradiated on the NiO film. The localized heating
allows for smoothening of the NiO film along with contributions to the changes
in the stoichiometry of NiO (reduction of excess oxygen). In particular, the
effects of tuning laser fluence and the subsequent tribology tests pertaining
to the coefficient of friction variations for tribological tests are discussed
Double-Spin Transverse Asymmetries in Drell-Yan Processes
We calculate the double-spin transverse asymmetries for the Drell-Yan lepton
pair production in p-p and p-anti p collisions. We assume the transverse and
the longitudinal polarization densities to be equal at a very small scale, as
it is suggested by confinement model results. Using a global fit for the
longitudinal distributions, we find transverse asymmetries of order of 10^-2 at
most, in the accessible kinematic regions.Comment: 8 pages, REVTeX, 6 figures included as file figures.tar.g
MC-Simulation of the Transverse Double Spin Asymmetry for RHIC
Using {\sc Sphinx tt}, a new MC simulation program for transverse polarized
nucleon--nucleon scattering based on {\sc Pythia~5.6}, we calculate the
transverse double spin asymmetry in the Drell-Yan process. If one
assumes (quite arbitrarily) that the transversity parton distribution equals the helicity distribution at some low
scale, the resulting asymmetry is of order 1\%. In this case is
would hardly be be measurable with PHENIX at RHIC.Comment: 17 pages, 5 figure
Modified Wandzura-Wilczek Relation with the Nachtmann Variable
If one retains M^2/Q^2 terms in the kinematics, the Nachtmann variable \xi
seems to be more appropriate to describe deep inelastic lepton-nucleon
scattering. Up to the first power of M^2/Q^2, a modified Wandzura-Wilczek
relation with respect to \xi was derived. Kinematical correction factors are
given as functions of \xi and Q^2. A comparison of the modified g_2^WW(\xi) and
original g_2^WW(x) with the most recent g_2 data is shown.Comment: 10 pages, 3 figures, revised version with minor correction
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