Влияние давления мышьяка при заращивании квантовых точек InAs тонким низкотемпературным слоем GaAs на их оптические свойства

Физика и техника полупроводников Pub Date : 2023-01-01 DOI:10.21883/ftp.2023.04.55898.13k

С.В. Балакирев, Д.В. Кириченко, С.Д. Комаров, А.С. Драгунова, Н.Е. Черненко, Н.А. Шандыба, Н.В. Крыжановская, А. Е. Жуков, Максим Сергеевич Солодовник

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Abstract

This paper presents the results of the experimental studies of InAs quantum dot overgrowth by a low-temperature GaAs layer at different arsenic vapor pressures. It is revealed that a threefold decrease in the arsenic pressure at a fixed deposition rate of the capping layer leads to a change in the shape of the photoluminescence spectrum of quantum dots with one maximum at the level of 1.19 eV to the shape of the spectrum with two low-energy contributions at the levels of 1.08 and 1.15 eV. Based on the analysis of the power dependences of the photoluminescence spectra, it is found that the low-energy contributions of the photoluminescence of quantum dots overgrown at a low arsenic pressure correspond to the ground-state emission two groups of quantum dots with different average sizes formed during mass transfer in the “quantum dot – wetting layer – matrix” system.

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砷压力对InAs量子点的影响是一层薄薄的低温气体对其光学特性的影响。

本文介绍了低温砷化镓层在不同砷蒸汽压下对InAs量子点过生长的实验研究结果。结果表明，在固定的盖层沉积速率下，砷压力降低三倍，导致量子点的光致发光光谱形状在1.19 eV时出现一个峰值，在1.08和1.15 eV时出现两个低能量贡献的光谱形状。通过对光致发光光谱的功率依赖性分析，发现在低砷压力下生长的量子点的光致发光的低能量贡献对应于“量子点-润湿层-基质”体系在传质过程中形成的两组平均尺寸不同的量子点的基态发射。

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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Физика и техника полупроводников

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