The non-commutative and discrete spatial structure of a 3D Wigner quantum oscillator

Details The non-commutative and discrete spatial structure of a 3D Wigner quantum oscillator The non-commutative and discrete spatial structure of a 3D Wigner quantum oscillator

2003-04-15

arxiv.org/abs/hep-th/0304136v1

J.Phys.A36:4337-4362,2003

Physics

High Energy Physics

High Energy Physics - Theory

31 pages, 19 figures, an extended version of this paper can be found in hep-th/0210164

Scientific paper

10.1088/0305-4470/36/15/309

The properties of a non-canonical 3D Wigner quantum oscillator, whose position and momentum operators generate the Lie superalgebra sl(1|3), are further investigated. Within each state space W(p), p=1,2,..., the energy E_q, q=0,1,2,3, takes no more than 4 different values. If the oscillator is in a stationary state \psi_q\in W(p) then measurements of the non-commuting Cartesian coordinates of the particle are such that their allowed values are consistent with it being found at a finite number of sites, called ``nests''. These lie on a sphere centered on the origin of fixed, finite radius \varrho_q. The nests themselves are at the vertices of a rectangular parallelepiped. In the typical cases (p>2) the number of nests is 8 for q=0 and 3, and varies from 8 to 24, depending on the state, for q=1 and 2. The number of nests is less in the atypical cases (p=1,2), but it is never less than two. In certain states in W(2) (resp. in W(1)) the oscillator is ``polarized'' so that all the nests lie on a plane (resp. on a line). The particle cannot be localized in any one of the available nests alone since the coordinates do not commute. The probabilities of measuring particular values of the coordinates are discussed. The mean trajectories and the standard deviations of the coordinates and momenta are computed, and conclusions are drawn about uncertainty relations.

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