Dimensional scaling as a symmetry operation

S. Kais; D. R. Herschbach; R. D. Levine

doi:10.1063/1.457247

Dimensional scaling as a symmetry operation

S. Kais^*, D. R. Herschbach, R. D. Levine

^*Corresponding author for this work

Institute of Chemistry

Research output: Contribution to journal › Article › peer-review

136 Scopus citations

Abstract

The scaling of the Schrödinger equation with spatial dimension D is studied by an algebraic approach. For any spherically symmetric potential, the Hamiltonian is invariant under such scaling to order 1/D². For the special family of potentials that are homogeneous functions of the radial coordinate, the scaling invariance is exact to all orders in 1/D. Explicit algebraic expressions are derived for the operators which shift D up or down. These ladder operators form an SU(1,1) algebra. The spectrum generating algebra to order 1/D² corresponds to harmonic motion. In the D → ∞ limit the ladder operators commute and yield a classical-like continuous energy spectrum. The relation of super symmetry and D scaling is also illustrated by deriving an analytic solution for the Hooke's law model of a two-electron atom, subject to a constraint linking the harmonic frequency to the nuclear charge and the dimension.

Original language	English
Pages (from-to)	7791-7796
Number of pages	6
Journal	The Journal of Chemical Physics
Volume	91
Issue number	12
DOIs	https://doi.org/10.1063/1.457247
State	Published - 1989

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AB - The scaling of the Schrödinger equation with spatial dimension D is studied by an algebraic approach. For any spherically symmetric potential, the Hamiltonian is invariant under such scaling to order 1/D2. For the special family of potentials that are homogeneous functions of the radial coordinate, the scaling invariance is exact to all orders in 1/D. Explicit algebraic expressions are derived for the operators which shift D up or down. These ladder operators form an SU(1,1) algebra. The spectrum generating algebra to order 1/D2 corresponds to harmonic motion. In the D → ∞ limit the ladder operators commute and yield a classical-like continuous energy spectrum. The relation of super symmetry and D scaling is also illustrated by deriving an analytic solution for the Hooke's law model of a two-electron atom, subject to a constraint linking the harmonic frequency to the nuclear charge and the dimension.

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Dimensional scaling as a symmetry operation

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