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Nonlinear Schroedinger-Poisson Theory for Quantum-Dot Helium

Mesoscale and Nanoscale Physics 2013-07-01 v1
Authors: Gilbert Reinisch , Vidar Gudmundsson
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Abstract

We use a nonlinear Schroedinger-Poisson equation to describe two interacting electrons with opposite spins confined in a parabolic potential, a quantum dot. We propose an effective form of the Poisson equation taking into account the dimensional mismatch of the two-dimensional electronic system and the three-dimensional electrostatics. The results agree with earlier numerical calculations performed in a large basis of two-body states and provide a simple model for continuous quantum-classical transition with increasing nonlinearity. Specific intriguing properties due to eigenstate non-orthogonality are emphasized.

Keywords

quantum dots and electron transport schrödinger equation atomic hydrogen and helium systems

Cite

@article{arxiv.0906.4650,
  title  = {Nonlinear Schroedinger-Poisson Theory for Quantum-Dot Helium},
  author = {Gilbert Reinisch and Vidar Gudmundsson},
  journal= {arXiv preprint arXiv:0906.4650},
  year   = {2013}
}

Comments

RevTeX, 8 pages with 6 included eps figures

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