Publications (1)0 Total impact
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Article: Path-integral Monte Carlo simulations for interacting few-electron quantum dots with spin-orbit coupling
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ABSTRACT: We develop path-integral Monte Carlo simulations for a parabolic two-dimensional (2D) quantum dot containing $N$ interacting electrons in the presence of Dresselhaus and/or Rashba spin-orbit couplings. Our method solves in a natural way the spin contamination problem and allows for numerically exact finite-temperature results at weak spin-orbit coupling. For $N<10$ electrons, we present data for the addition energy, the particle density, and the total spin $S$ in the Wigner molecule regime of strong Coulomb interactions. We identify magic numbers at N=3 and N=7 via a peak in the addition energy. These magic numbers differ both from weak-interaction and classical predictions, and are stable with respect to (weak) spin-orbit couplings.09/2005;
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Institutions
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2005
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Heinrich-Heine-Universität Düsseldorf
- Institut für Theoretische Physik
Düsseldorf, North Rhine-Westphalia, Germany
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