Nonlinear optical properties of coupled quantum dots in peanut configuration

IF 1.5 4区 材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Philosophical Magazine Pub Date : 2023-08-07 DOI:10.1080/14786435.2023.2243451
E. S. Hakobyan, D. Baghdasaryan, E. Kazaryan, P. Mantashyan, D. Hayrapetyan
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Abstract

ABSTRACT This paper presents a theoretical investigation of nonlinear properties of coupled quantum dots in the peanut configuration. A complete Hamiltonian is formulated using the adiabatic method and the confinement energy is represented in a cylindrical coordinate system. The effective energy for the slow subsystem is analysed and graphed as a function of a fixed value of axial coordinate for both the asymmetric and symmetric peanut QD cases. The electron motion in the presence of an electric field in the vertical direction is considered, and the eigenfunctions and energy spectrum of electron motion are determined for the same direction utilising the finite element method. The dependence of the first three energy levels on the electric field is shown, and the electron probability density for the ground state and the first excited state is plotted. In addition, calculations for the nonlinear optical properties are presented, particularly optical rectification, second harmonic generation and third harmonic generation. The results demonstrate that these properties can be effectively controlled by varying the external electric field. The findings suggest that coupled peanut QDs hold significant potential for applications in high-performance optoelectronic devices.
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花生构型耦合量子点的非线性光学性质
摘要本文从理论上研究了花生态耦合量子点的非线性特性。用绝热法给出了完整的哈密顿量,约束能量用柱坐标系表示。分析了非对称和对称花生量子点慢子系统的有效能量,并绘制了轴坐标固定值的函数图。考虑了电场作用下电子在垂直方向上的运动,利用有限元方法确定了电子在同一方向上的运动特征函数和能谱。给出了前三个能级对电场的依赖关系,并绘制了基态和第一激发态的电子概率密度。此外,给出了非线性光学性质的计算,特别是光整流、二次谐波和三次谐波的产生。结果表明,通过改变外加电场可以有效地控制这些特性。研究结果表明,耦合花生量子点在高性能光电器件中具有重要的应用潜力。
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来源期刊
Philosophical Magazine
Philosophical Magazine 工程技术-材料科学:综合
自引率
0.00%
发文量
93
审稿时长
4.7 months
期刊介绍: The Editors of Philosophical Magazine consider for publication contributions describing original experimental and theoretical results, computational simulations and concepts relating to the structure and properties of condensed matter. The submission of papers on novel measurements, phases, phenomena, and new types of material is encouraged.
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