11,648 research outputs found
Character of Locally Inequivalent Classes of States and Entropy of Entanglement
In this letter we have established the physical character of pure bipartite
states with the same amount of entanglement in the same Schmidt rank that
either they are local unitarily connected or they are incomparable. There exist
infinite number of deterministically locally inequivalent classes of pure
bipartite states in the same Schmidt rank (starting from three) having same
amount of entanglement. Further, if there exists incomparable states with same
entanglement in higher Schmidt ranks (greater than three), then they should
differ in at least three Schmidt coefficients.Comment: 4 pages, revtex4, no figure, accepted in Physical Review A (rapid
communications
Effects of c-axis Hopping in the Interlayer Tunneling Model of High-Tc Layered Cuprates
We consider the interlayer pair-tunneling model for layered cuprates,
including an effective single particle hopping along the c-axis. A
phenomenological suppression of the c-axis hopping matrix element, by the
pseudogap in cuprate superconductors, is incorporated. At optimal doping,
quantities characteristic to the superconducting state, such as the transition
temperature and the superconducting gap are calculated. Results from our
calculations are consistent with the experimental observations with the
noteworthy point that, the superconducting gap as a function of temperature
shows excellent match to the experimental data. Predictions within the model,
regarding T_c variation with interlayer coupling, are natural outcomes which
could be tested further.Comment: Latex file, 18 pages, 4 figures (postscript files included), to
appear in Int. J. Mod. Phys.
Statistical Evidence for Three classes of Gamma-ray Bursts
Two different multivariate clustering techniques, the K-means partitioning
method and the Dirichlet process of mixture modeling, have been applied to the
BATSE Gamma-ray burst (GRB) catalog, to obtain the optimum number of coherent
groups. In the standard paradigm, GRB are classified in only two groups, the
long and short bursts. However, for both the clustering techniques, the optimal
number of classes was found to be three, a result which is consistent with
previous statistical analysis. In this classification, the long bursts are
further divided into two groups which are primarily differentiated by their
total fluence and duration and hence are named low and high fluence GRB.
Analysis of GRB with known red-shifts and spectral parameters suggests that low
fluence GRB have nearly constant isotropic energy output of 10^{52} ergs while
for the high fluence ones, the energy output ranges from 10^{52} to 10^{54}
ergs. It is speculated that the three kinds of GRBs reflect three different
origins: mergers of neutron star systems, mergers between white dwarfs and
neutron stars, and collapse of massive stars.Comment: 7 pages, accepted for publication in the Astrophysical Journal. Minor
editorial change
Educating and Training Accelerator Scientists and Technologists for Tomorrow
Accelerator science and technology is inherently an integrative discipline
that combines aspects of physics, computational science, electrical and
mechanical engineering. As few universities offer full academic programs, the
education of accelerator physicists and engineers for the future has primarily
relied on a combination of on-the-job training supplemented with intense
courses at regional accelerator schools. This paper describes the approaches
being used to satisfy the educational interests of a growing number of
interested physicists and engineers.Comment: 19 pages, 3 figure
A six-parameter space to describe galaxy diversification
Galaxy diversification proceeds by transforming events like accretion,
interaction or mergers. These explain the formation and evolution of galaxies
that can now be described with many observables. Multivariate analyses are the
obvious tools to tackle the datasets and understand the differences between
different kinds of objects. However, depending on the method used,
redundancies, incompatibilities or subjective choices of the parameters can
void the usefulness of such analyses. The behaviour of the available parameters
should be analysed before an objective reduction of dimensionality and
subsequent clustering analyses can be undertaken, especially in an evolutionary
context. We study a sample of 424 early-type galaxies described by 25
parameters, ten of which are Lick indices, to identify the most structuring
parameters and determine an evolutionary classification of these objects. Four
independent statistical methods are used to investigate the discriminant
properties of the observables and the partitioning of the 424 galaxies:
Principal Component Analysis, K-means cluster analysis, Minimum Contradiction
Analysis and Cladistics. (abridged)Comment: Accepted for publicationin A\&
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