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Structure Theory for Extended Kepler-Coulomb 3D Classical Superintegrable Systems

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dc.contributor.author Kalnins, E.G.
dc.contributor.author Miller Jr., W.
dc.date.accessioned 2019-02-18T12:09:46Z
dc.date.available 2019-02-18T12:09:46Z
dc.date.issued 2012
dc.identifier.citation Structure Theory for Extended Kepler-Coulomb 3D Classical Superintegrable Systems / E.G. Kalnins, W. Miller Jr. // Symmetry, Integrability and Geometry: Methods and Applications. — 2012. — Т. 8. — Бібліогр.: 28 назв. — англ. uk_UA
dc.identifier.issn 1815-0659
dc.identifier.other 2010 Mathematics Subject Classification: 20C35; 22E70; 37J35; 81R12
dc.identifier.other DOI: http://dx.doi.org/10.3842/SIGMA.2012.034
dc.identifier.uri http://dspace.nbuv.gov.ua/handle/123456789/148418
dc.description.abstract The classical Kepler-Coulomb system in 3 dimensions is well known to be 2nd order superintegrable, with a symmetry algebra that closes polynomially under Poisson brackets. This polynomial closure is typical for 2nd order superintegrable systems in 2D and for 2nd order systems in 3D with nondegenerate (4-parameter) potentials. However the degenerate 3-parameter potential for the 3D extended Kepler-Coulomb system (also 2nd order superintegrable) is an exception, as its quadratic symmetry algebra doesn't close polynomially. The 3D 4-parameter potential for the extended Kepler-Coulomb system is not even 2nd order superintegrable. However, Verrier and Evans (2008) showed it was 4th order superintegrable, and Tanoudis and Daskaloyannis (2011) showed that in the quantum case, if a second 4th order symmetry is added to the generators, the double commutators in the symmetry algebra close polynomially. Here, based on the Tremblay, Turbiner and Winternitz construction, we consider an infinite class of classical extended Kepler-Coulomb 3- and 4-parameter systems indexed by a pair of rational numbers (k₁,k₂) and reducing to the usual systems when k₁=k₂=1. We show these systems to be superintegrable of arbitrarily high order and work out explicitly the structure of the symmetry algebras determined by the 5 basis generators we have constructed. We demonstrate that the symmetry algebras close rationally; only for systems admitting extra discrete symmetries is polynomial closure achieved. Underlying the structure theory is the existence of raising and lowering constants of the motion, not themselves polynomials in the momenta, that can be employed to construct the polynomial symmetries and their structure relations. uk_UA
dc.description.sponsorship This paper is a contribution to the Special Issue “Superintegrability, Exact Solvability, and Special Functions”. The full collection is available at http://www.emis.de/journals/SIGMA/SESSF2012.html. This work was partially supported by a grant from the Simons Foundation (# 208754 to Willard Miller, Jr.). uk_UA
dc.language.iso en uk_UA
dc.publisher Інститут математики НАН України uk_UA
dc.relation.ispartof Symmetry, Integrability and Geometry: Methods and Applications
dc.title Structure Theory for Extended Kepler-Coulomb 3D Classical Superintegrable Systems uk_UA
dc.type Article uk_UA
dc.status published earlier uk_UA


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