Quadratic algebras for three-dimensional superintegrable systems

Quadratic algebras for three-dimensional superintegrable systems

The three-dimensional superintegrable systems with quadratic integrals of motion have five functionally independent integrals, one among them is the Hamiltonian. Kalnins, Kress, and Miller have proved that in the case of nondegenerate potentials with quadratic integrals of motion there is a sixth qu...

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Veröffentlicht in:Physics of atomic nuclei 2010-02, Vol.73 (2), p.214-221
Hauptverfasser: Daskaloyannis, C., Tanoudis, Y.
Format: Artikel
Sprache:eng
Schlagworte:
ALGEBRA
CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS
DIFFERENTIAL EQUATIONS
Elementary Particles and Fields Theory
EQUATIONS
HAMILTONIANS
INTEGRALS
MATHEMATICAL METHODS AND COMPUTING
MATHEMATICAL OPERATORS
MATHEMATICS
PARTIAL DIFFERENTIAL EQUATIONS
Particle and Nuclear Physics
Physics
Physics and Astronomy
POISSON EQUATION
POTENTIALS
QUANTUM OPERATORS
THREE-DIMENSIONAL CALCULATIONS
TWO-DIMENSIONAL CALCULATIONS
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Zusammenfassung:The three-dimensional superintegrable systems with quadratic integrals of motion have five functionally independent integrals, one among them is the Hamiltonian. Kalnins, Kress, and Miller have proved that in the case of nondegenerate potentials with quadratic integrals of motion there is a sixth quadratic integral, which is linearly independent of the other integrals. The existence of this sixth integral implies that the integrals of motion form a ternary parafermionic-like quadratic Poisson algebra with five generators. In this contribution we investigate the structure of this algebra. We show that in all the nondegenerate cases there is at least one subalgebra of three integrals having a Poisson quadratic algebra structure, which is similar to the two-dimensional case.
ISSN:1063-7788
1562-692X
DOI:10.1134/S106377881002002X