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Singlet-triplet transitions in highly correlated nanowire quantum dots

We consider a quantum dot embedded in a three-dimensional nanowire with tunable aspect ratio a. A configuration interaction theory is developed to calculate the energy spectra of the finite 1D quantum dot systems charged with two electrons in the presence of magnetic fields B along the wire axis. Fruitful singlet-triplet transition behaviors are revealed and explained in terms of the competing exchange interaction, correlation interaction, and spin Zeeman energy. In the high aspect ratio regime, the singlet-triplet transitions are shown designable by tuning the parameters a and B. The transitions also manifest the highly correlated nature of long nanowire quantum dots.

preprint2009arXivOpen access
Y. T. ChenC. C. ChaoS. Y. HuangC. S. TangS. J. Cheng
cond-mat.mes-hall
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Y. T. ChenC. C. ChaoS. Y. HuangC. S. TangS. J. Cheng

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