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Effects of Magnetic Field on the Valence Bond Property of the
Double-Quantum-Dot Molecule
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WANG Li-Min;LUO Ying;MA Ben-Kun |
Department of Physics and Institute of Theoretical Physics,
Beijing Normal University, Beijing 100875
Department of Physics, Hebei Normal University, Shijiazhuang 050091
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Cite this article: |
WANG Li-Min, LUO Ying, MA Ben-Kun 2002 Chin. Phys. Lett. 19 546-549 |
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Abstract Effects of magnetic field on the valence bond property of the double-quantum-dot molecule are numerically studied by the finite element method and perturbation approach because of the absence of cylindrical symmetry in the horizontally coupled dots. The calculation results show that the energy value of the ground state changes differently from that of the first excited state with increasing magnetic field strength, and they cross under certain magnetic field. The increasing magnetic field makes the covalent bond state change into an ionic bond state, which agrees qualitatively with experimental result and makes ionic bond states remain. The oscillator strength of transition between covalent bond states decreases distinctly with the increasing magnetic field strength, when the molecule is irradiated by polarized light. Such a phenomenon is possibly useful for actual applications.
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Keywords:
71.70.Ej
78.20.Jq
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Published: 01 April 2002
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PACS: |
71.70.Ej
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(Spin-orbit coupling, Zeeman and Stark splitting, Jahn-Teller effect)
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78.20.Jq
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(Electro-optical effects)
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