Electronic States and transmission in GaAs/GaAlAs multi-quantum wells with geometrical defects

IF 2.7 Q2 PHYSICS, CONDENSED MATTER Micro and Nanostructures Pub Date : 2024-10-30 DOI:10.1016/j.micrna.2024.208002

F.Z. Elamri, A. Baidri, F. Falyouni, D. Bria

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Abstract

In this paper, we use the Green’s function approach to conduct the theoretical study of the propagation of electron waves in a multi-quantum wells (MQWs) made up of GaAs and GaAlAs layers with a periodic structure. Localized electronic states are produced inside the band gaps due to the presence of defects of various types inside the MQWs. These states are extremely sensitive to the thicknesses and the position of the different inserted defect layers. The transmission rate of these states is always at its highest as the number of defects rises. Similar to this, we found that the transmission rates of these defect layers decrease the further apart they are. Thus, when the defect position is separated by more than two cells, this kind of interaction is stronger; however, when they are brought closer, it is weaker. Due to the energy transfer between the various electronic states created inside the band gaps, the origin of the states induced by the wells defect becomes a state induced by the barrier defect, and vice versa. This causes a change on the behavior of the induced electronic localized states.

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具有几何缺陷的砷化镓/砷化镓多量子阱中的电子状态和传输

本文采用格林函数方法对电子波在具有周期性结构的砷化镓和砷化镓层组成的多量子阱（MQWs）中的传播进行了理论研究。由于 MQWs 内部存在各种类型的缺陷，带隙内会产生局部电子态。这些态对不同插入缺陷层的厚度和位置极为敏感。这些态的传输率总是随着缺陷数量的增加而达到最高。与此类似，我们发现这些缺陷层之间的距离越远，传输率就越低。因此，当缺陷位置相隔两个单元以上时，这种相互作用会更强；但当它们靠得更近时，这种相互作用就会减弱。由于在带隙内产生的各种电子状态之间的能量转移，井缺陷诱导的状态起源变成了势垒缺陷诱导的状态，反之亦然。这导致诱导电子局部态的行为发生变化。

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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来源期刊

Micro and Nanostructures

CiteScore

6.50

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0.00%

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