51,491 research outputs found
A General -Oscillator Algebra
It is well-known that the Macfarlane-Biedenharn -oscillator and its
generalization has no Hopf structure, whereas the Hong Yan -oscillator can
be endowed with a Hopf structure. In this letter, we demonstrate that it is
possible to construct a general -oscillator algebra which includes the
Macfarlane-Biedenharn oscillator algebra and the Hong Yan oscillator algebra as
special cases.Comment: Needs subeqnarray.sty and epsf.sty (contains 2 figures
q-Deformation of the Krichever-Novikov Algebra
The recent focus on deformations of algebras called quantum algebras can be
attributed to the fact that they appear to be the basic algebraic structures
underlying an amazingly diverse set of physical situations. To date many
interesting features of these algebras have been found and they are now known
to belong to a class of algebras called Hopf algebras [1]. The remarkable
aspect of these structures is that they can be regarded as deformations of the
usual Lie algebras. Of late, there has been a considerable interest in the
deformation of the Virasoro algebra and the underlying Heisenberg algebra
[2-11]. In this letter we focus our attention on deforming generalizations of
these algebras, namely the Krichever-Novikov (KN) algebra and its associated
Heisenberg algebra.Comment: AmsTex. To appear in Letters in Mathematical Physic
Determination of the CP Phase with Possibility of New Physics
We propose a new method to extract the CP violating weak phase in
the CKM paradigm of the Standard Model, using
and decays, where are final states
such as , , , {\it etc.} We also study the
experimental feasibility of our new method. With possibility of new phases in
the CKM matrix, we re-examine some of the previously proposed methods to
determine , and find that it would be in principle possible to identify
and a new phase angle separately.Comment: 4 pages, LaTeX; Using two-column style file (ltwol.sty); To be
published in the Proceedings of the Fourth International Workshop on B
Physics and CP Violation, Ise-Shima, Japan, February 18 - 23, 200
Cooperative Game Theory within Multi-Agent Systems for Systems Scheduling
Research concerning organization and coordination within multi-agent systems
continues to draw from a variety of architectures and methodologies. The work
presented in this paper combines techniques from game theory and multi-agent
systems to produce self-organizing, polymorphic, lightweight, embedded agents
for systems scheduling within a large-scale real-time systems environment.
Results show how this approach is used to experimentally produce optimum
real-time scheduling through the emergent behavior of thousands of agents.
These results are obtained using a SWARM simulation of systems scheduling
within a High Energy Physics experiment consisting of 2500 digital signal
processors.Comment: Fourth International Conference on Hybrid Intelligent Systems (HIS),
Kitakyushu, Japan, December, 200
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