Nonlinear Optical Properties of Al0.3Ga0.7As/GaAs Quantum Dots under Tunable Parameters

physica status solidi (b) Pub Date : 2023-05-17 DOI:10.1002/pssb.202300094

Xing Wang, Xuechao Li

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引用次数: 1

Abstract

The nonlinear optical properties of quantum dots under multidimensional confinement potential are investigated. In the framework of the effective mass approximation, the analytical formula of the optical absorption coefficient in the quantum dots is derived using the density matrix method and the iterative procedure, and the numerical results of typical Al0.3Ga0.7 As/GaAs material are calculated. Through calculation and numerical fitting, it is found that increasing temperature and the depth of limiting potential will give rise to the absorption peak to move to the high‐energy region commonly referred to as the blueshift, within a certain range of parameter variations. While reducing the range of limiting potential, quantum dot radius and the hydrostatic pressure can achieve the same effect. It is important to emphasize that variations in hydrostatic pressure and the depth of the limiting potential result in significant changes to the peak value of the optical absorption coefficient. The research results have a certain guiding significance for further study of the optical properties of quantum dots under multidimensional confinement potential and their application in practical production.

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可调参数下Al0.3Ga0.7As/GaAs量子点的非线性光学特性

研究了量子点在多维约束势作用下的非线性光学性质。在有效质量近似的框架下，采用密度矩阵法和迭代法推导了量子点光吸收系数的解析公式，并计算了典型Al0.3Ga0.7 As/GaAs材料的数值结果。通过计算和数值拟合发现，在一定的参数变化范围内，温度和极限势深度的增加会使吸收峰向高能区移动，通常称为蓝移。在减小极限势范围的同时，量子点半径和静水压力可以达到相同的效果。必须强调的是，静水压力和极限电位深度的变化会导致光学吸收系数峰值的显著变化。研究结果对进一步研究多维约束势下量子点的光学性质及其在实际生产中的应用具有一定的指导意义。

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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physica status solidi (b)

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