3,532 research outputs found
The ASEAN Economic Community and the European experience
In November 2002, it was proposed at the Association of Southeast Asian Nations (ASEAN) Heads of Government meeting in Phnom Penh that the region should consider the possibility of creating an ASEAN Economic Community (AEC) by 2020. The name is evocative, for an Economic Community immediately brings to mind the European experience. In fact, when the Asian Pacific Economic Cooperation (APEC) was re-inventing itself, it was proposed that the words behind the organization's acronym be replaced with Asia-Pacific Economic Community. This idea was rejected explicitly for fear that it would give the impression that APEC was intending to move in the direction of the EC model, which was thought to be too controversial. --
Density Distribution Sunflower Plots
Density distribution sunflower plots are used to display high-density bivariate data. They are useful for data where a conventional scatter plot is difficult to read due to overstriking of the plot symbol. The x-y plane is subdivided into a lattice of regular hexagonal bins of width w specified by the user. The user also specifies the values of l, d, and k that affect the plot as follows. Individual observations are plotted when there are less than l observations per bin as in a conventional scatter plot. Each bin with from l to d observations contains a light sunflower. Other bins contain a dark sunflower. In a light sunflower each petal represents one observation. In a dark sunflower, each petal represents k observations. (A dark sunflower with p petals represents between /2-pk k and /2+pk k observations.) The user can control the sizes and colors of the sunflowers. By selecting appropriate colors and sizes for the light and dark sunflowers, plots can be obtained that give both the overall sense of the data density distribution as well as the number of data points in any given region. The use of this graphic is illustrated with data from the Framingham Heart Study. A documented Stata program, called sunflower, is available to draw these graphs. It can be downloaded from the Statistical Software Components archive at http://ideas.repec.org/c/boc/bocode/s430201.html . (Journal of Statistical Software 2003; 8 (3): 1-5. Posted at http://www.jstatsoft.org/index.php?vol=8 .)
Characterizing Information Propagation in Plants
This paper considers an electro-chemical based communication model for
intercellular communication in plants. Many plants, such as Mimosa pudica (the
"sensitive plant"), employ electrochemical signals known as action potentials
(APs) for communication purposes. In this paper we present a simple model for
action potential generation. We make use of the concepts from molecular
communication to explain the underlying process of information transfer in a
plant. Using the information-theoretic analysis, we compute the mutual
information between the input and output in this work. The key aim is to study
the variations in the information propagation speed for varying number of plant
cells for one simple case. Furthermore we study the impact of the AP signal on
the mutual information and information propagation speed. We aim to explore
further that how the growth rate in plants can impact the information transfer
rate and vice versa.Comment: 6 pages, 5 Figures, Submitted to IEEE Conference, 201
Magnons in Ferromagnetic Metallic Manganites
Ferromagnetic (FM) manganites, a group of likely half-metallic oxides, are of
special interest not only because they are a testing ground of the classical
doubleexchange interaction mechanism for the colossal magnetoresistance, but
also because they exhibit an extraordinary arena of emergent phenomena. These
emergent phenomena are related to the complexity associated with strong
interplay between charge, spin, orbital, and lattice. In this review, we focus
on the use of inelastic neutron scattering to study the spin dynamics, mainly
the magnon excitations in this class of FM metallic materials. In particular,
we discussed the unusual magnon softening and damping near the Brillouin zone
boundary in relatively narrow band compounds with strong Jahn-Teller lattice
distortion and charge/orbital correlations. The anomalous behaviors of magnons
in these compounds indicate the likelihood of cooperative excitations involving
spin, lattice, as well as orbital degrees of freedom.Comment: published in J. Phys.: Cond. Matt. 20 figure
Fermions and bosons in nonsymmorphic PdSb2 with sixfold degeneracy
PdSb2 is a candidate for hosting 6-fold-degenerate exotic fermions (beyond
Dirac and Weyl fermions).The nontrivial band crossing protected by the
nonsymmorphic symmetry plays a crucial role in physical properties. We have
grown high-quality single crystals of PdSb2 and characterized their physical
properties under several stimuli (temperature, magnetic field, and pressure).
While it is a diamagnetic Fermi-liquid metal under ambient pressure, PdSb2
exhibits a large magnetoresistance with continuous increase up to 14 T, which
follows the Kohler's scaling law at all temperatures. This implies one-band
electrical transport, although multiple bands are predicted by first principles
calculations. By applying magnetic field along the [111] direction, de Haas-van
Alphen oscillations are observed with frequency of 102 T. The effective mass is
nearly zero (0.045m0) with the Berry phase close to {\pi}, confirming that the
band close to the R point has a nontrivial character. Under quasihydrostatic
pressure (p), evidence for superconductivity is observed in the resistivity
below the critical temperature Tc. The dome-shaped Tc versus p is obtained with
maximum Tc~2.9 K. We argue that the formation of Cooper pairs (bosons) is the
consequence of the redistribution of the 6-fold-degenerate fermions under
pressure
Applications of the Gauss-Bonnet theorem to gravitational lensing
In this geometrical approach to gravitational lensing theory, we apply the
Gauss-Bonnet theorem to the optical metric of a lens, modelled as a static,
spherically symmetric, perfect non-relativistic fluid, in the weak deflection
limit. We find that the focusing of the light rays emerges here as a
topological effect, and we introduce a new method to calculate the deflection
angle from the Gaussian curvature of the optical metric. As examples, the
Schwarzschild lens, the Plummer sphere and the singular isothermal sphere are
discussed within this framework.Comment: 10 pages, 1 figure, IoP styl
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