中文

Dirac oscillator with nonzero minimal uncertainty in position

数学物理 2009-11-10 v1 高能物理 - 理论 math.MP 量子物理

摘要

In the context of some deformed canonical commutation relations leading to isotropic nonzero minimal uncertainties in the position coordinates, a Dirac equation is exactly solved for the first time, namely that corresponding to the Dirac oscillator. Supersymmetric quantum mechanical and shape-invariance methods are used to derive both the energy spectrum and wavefunctions in the momentum representation. As for the conventional Dirac oscillator, there are neither negative-energy states for E=1E=-1, nor symmetry between the l=j1/2l = j - {1/2} and l=j+1/2l = j + {1/2} cases, both features being connected with supersymmetry or, equivalently, the ωω\omega \to - \omega transformation. In contrast with the conventional case, however, the energy spectrum does not present any degeneracy pattern apart from that associated with the rotational symmetry. More unexpectedly, deformation leads to a difference in behaviour between the l=j1/2l = j - {1/2} states corresponding to small, intermediate and very large jj values in the sense that only for the first ones supersymmetry remains unbroken, while for the second ones no bound state does exist.

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引用

@article{arxiv.math-ph/0412052,
  title  = {Dirac oscillator with nonzero minimal uncertainty in position},
  author = {C. Quesne and V. M. Tkachuk},
  journal= {arXiv preprint arXiv:math-ph/0412052},
  year   = {2009}
}

备注

28 pages, no figure, submitted to JPA