Open AccessModels for the 3D singular isotropic oscillator quadratic algebra
Author(s) -
E. G. Kalnins,
Willard Miller,
Sarah Post
Publication year - 2010
Publication title -
physics of atomic nuclei
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.25
H-Index - 48
eISSN - 1562-692X
pISSN - 1063-7788
DOI - 10.1134/s1063778810020249
Subject(s) - quadratic algebra , quadratic equation , physics , differential (mechanical device) , pure mathematics , isotropy , poisson algebra , quantum , mathematical physics , algebra over a field , quantum mechanics , mathematics , poisson bracket , algebra representation , lie algebra , jordan algebra , geometry , thermodynamics
We give the first explicit construction of the quadratic algebra for a 3D quantum superintegrable system with nondegenerate (4-parameter) potential together with realizations of irreducible representations of the quadratic algebra in terms of differential—differential or differential—difference and difference—difference operators in two variables. The example is the singular isotropic oscillator. We point out that the quantum models arise naturally from models of the Poisson algebras for the corresponding classical superintegrable system. These techniques extend to quadratic algebras for superintegrable systems in n dimensions and are closely related to Hecke algebras and multivariable orthogonal polynomials
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