Inverse square potential

In quantum mechanics, the inverse square potential is a form of a central force potential which has the unusual property of the eigenstates of the corresponding Hamiltonian operator remaining eigenstates in a scaling of all cartesian coordinates by the same constant.[1] Apart from this curious feature, it's by far less important central force problem than that of the Keplerian inverse square force system.

Description

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The potential energy function of an inverse square potential is

 ,

where   is some constant and   is the Euclidean distance from some central point. If   is positive, the potential is attractive and if   is negative, the potential is repulsive. The corresponding Hamiltonian operator   is

 ,

where   is the mass of the particle moving in the potential.

Properties

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The canonical commutation relation of quantum mechanics,  , has the property of being invariant in a scaling

 , and  ,

where   is some scaling factor. The momentum   and the position   are vectors, while the components  ,  and the radius   are scalars. In an inverse square potential system, if a wavefunction   is an eigenfunction of the Hamiltonian operator  , it is also an eigenfunction of the operator  , where the scaled operators   and   are defined as above.

This also means that if a radially symmetric wave function   is an eigenfunction of   with eigenvalue  , then also   is an eigenfunction, with eigenvalue  . Therefore, the energy spectrum of the system is a continuum of values.

The system with a particle in an inverse square potential with positive   (attractive potential) is an example of so-called falling-to-center problem, where there is no lowest energy wavefunction and there are eigenfunctions where the particle is arbitrarily localized in the vicinity of the central point  .[2]

See also

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References

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  1. ^ Martínez-y-Romero, R. P.; Núñez-Yépez, H. N.; Salas-Brito, A. L. (2013). "The two dimensional motion of a particle in an inverse square potential: Classical and quantum aspects" (PDF). Journal of Mathematical Physics. 54 (5): 053509. doi:10.1063/1.4804356. ISSN 0022-2488. Archived from the original (PDF) on 2019-02-04. Retrieved 2017-06-11.
  2. ^ Vasyuta, Vasyl M.; Tkachuk, Volodymyr M. (2016). "Falling of a quantum particle in an inverse square attractive potential". The European Physical Journal D. 70 (12). arXiv:1505.04750. doi:10.1140/epjd/e2016-70463-3. ISSN 1434-6060. S2CID 118371904.