48,654 research outputs found
Study of distortion effects and clustering of isotopic impurities in solid molecular para-hydrogen by Shadow Wave Functions
We employed a fully optimized Shadow Wave Function (SWF) in combination with
Variational Monte Carlo techniques to investigate the properties of HD
molecules and molecular ortho-deuterium (o-D_2) in bulk solid para-hydrogen
(p-H_2). Calculations were performed for different concentrations of impurities
ranging from about 1% to 25% at the equilibrium density for the para-hydrogen
crystal. By computing the excess energy both for clustered and isolated
impurities we tried to determine a limit for the solubility of HD and o-D_2 in
p-H_2.Comment: 4 pages, 4 figure
Diffusion Monte Carlo study of the equation of state of solid ortho-D
We present results of Diffusion Monte Carlo calculations for a system of
solid ortho-D_2 at different densities, for pressure ranging from 0 up to
350MPa. We compare the equation of state obtained using two of the most used
effective intermolecular potentials, i.e. the Silvera--Goldman and the Buck
potentials, with experimental data, in order to assess the validity of the
model interactions. The Silvera-Goldman potential has been found to provide a
satisfactory agreement with experimental results, showing that, as opposed to
what recently found for p-H_2, three--body forces can be efficiently accounted
for by an effective two--body term.Comment: 11 pages, 4 figure
Conformal Chiral Dynamics
We investigate the chiral dynamics of gauge theories developing an infrared
stable fixed point. We determine the dependence of the bilinear fermion
condensate on the underlying fermion mass and its anomalous dimension. We
introduce the instanton contributions and investigate how they affect the
dynamics near the fixed point. We generalize the Gell-Mann Oakes Renner
relation and suggest to use it to uncover the presence of an infrared fixed
point of the underlying gauge theory. Our results have an immediate impact on
the construction of sensible extensions of the Standard Model of particle
interactions and the general understanding of the phase diagram of strongly
coupled theories.Comment: 4 RevTex pages, 1 figure with small modifications and added
reference
A Comparison of Algorithms for Learning Hidden Variables in Normal Graphs
A Bayesian factor graph reduced to normal form consists in the
interconnection of diverter units (or equal constraint units) and
Single-Input/Single-Output (SISO) blocks. In this framework localized
adaptation rules are explicitly derived from a constrained maximum likelihood
(ML) formulation and from a minimum KL-divergence criterion using KKT
conditions. The learning algorithms are compared with two other updating
equations based on a Viterbi-like and on a variational approximation
respectively. The performance of the various algorithm is verified on synthetic
data sets for various architectures. The objective of this paper is to provide
the programmer with explicit algorithms for rapid deployment of Bayesian graphs
in the applications.Comment: Submitted for journal publicatio
3-D Hand Pose Estimation from Kinect's Point Cloud Using Appearance Matching
We present a novel appearance-based approach for pose estimation of a human
hand using the point clouds provided by the low-cost Microsoft Kinect sensor.
Both the free-hand case, in which the hand is isolated from the surrounding
environment, and the hand-object case, in which the different types of
interactions are classified, have been considered. The hand-object case is
clearly the most challenging task having to deal with multiple tracks. The
approach proposed here belongs to the class of partial pose estimation where
the estimated pose in a frame is used for the initialization of the next one.
The pose estimation is obtained by applying a modified version of the Iterative
Closest Point (ICP) algorithm to synthetic models to obtain the rigid
transformation that aligns each model with respect to the input data. The
proposed framework uses a "pure" point cloud as provided by the Kinect sensor
without any other information such as RGB values or normal vector components.
For this reason, the proposed method can also be applied to data obtained from
other types of depth sensor, or RGB-D camera
Conformal House
We investigate the gauge dynamics of nonsupersymmetric SU(N) gauge theories
featuring the simultaneous presence of fermionic matter transforming according
to two distinct representations of the underlying gauge group. We bound the
regions of flavors and colors which can yield a physical infrared fixed point.
As a consistency check we recover the previously investigated conformal windows
bounds when restricting to a single matter representation. The earlier
conformal windows can be imagined to be part now of the new conformal house. We
predict the nonperturbative anomalous dimensions at the infrared fixed points.
We further investigate the effects of adding mass terms to the condensates on
the conformal house chiral dynamics and construct the simplest instanton
induced effective Lagrangian terms
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