Electronic States and Optical Transitions in an Asymmetric Quantum DotMolecule

Journal of lasers, optics & photonics Pub Date : 2017-03-31 DOI:10.4172/2469-410X.1000152
K. Dvoyan, Tshantshapanyan Aa, M. Hm, B. Vlahovic
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引用次数: 1

Abstract

In the framework of adiabatic approximation the electronic states and direct interband absorption of light in the asymmetric double quantum dot molecule (QDM) having a shape of Cassini lemniscate revolution are discussed. Analytical expressions for the wave functions and energy spectrum of the electron in the QDM are derived. Nonmonotonic split and step-like behavior of the energy spectrum is revealed due to the possibility of the electron tunneling between quantum dots (QDs) in the molecule. The corresponding selection rules of quantum transitions for the direct interband absorption of light are obtained. The absorption edge characteristics depending on the QDM geometrical sizes are also revealed.
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不对称量子点分子中的电子态和光跃迁
在绝热近似的框架下,讨论了具有卡西尼辐射旋转形状的非对称双量子点分子(QDM)的电子态和光的直接带间吸收。导出了QDM中电子的波函数和能谱的解析表达式。由于分子中量子点之间存在电子隧穿的可能性,揭示了能谱的非单调分裂和阶梯行为。得到了光直接带间吸收的量子跃迁的选择规律。还揭示了随QDM几何尺寸变化的吸收边特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Journal of lasers, optics & photonics
Journal of lasers, optics & photonics
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