Refractive index change in a double quantum dot structure

IF 3 Q3 Physics and Astronomy

Results in Optics Pub Date : 2025-08-05 DOI:10.1016/j.rio.2025.100880

Suha Hadi , Mohammed A.A. Abbas , Faten K. Hachim , Baqer Obaid Al-Nashy , Amin H. Al‑Khursan

引用次数: 0

Abstract

The density matrix theory models the refractive index change in a double quantum dot (DQD) system. The orthogonalized plane wave (OPW) is considered for wetting layer (WL)-quantum dot (QD) transitions, and the transition momenta are calculated. The modeling here considers all possible QD-QD and WL-QD transitions, which is another key property of this work. The results show that the tunneling increment raises the refractive change (RIC) to a huge value. Reducing the probe field enables the superluminal propagation of light, which is of viable importance in optical applications. A weaker probe or a strong pump with moderate tunneling can result in the highest value of RIC.

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双量子点结构折射率的变化

密度矩阵理论模拟了双量子点（DQD）系统的折射率变化。考虑正交平面波（OPW）对湿层(WL)-量子点（QD）跃迁的影响，计算了跃迁动量。这里的建模考虑了所有可能的QD-QD和WL-QD转换，这是这项工作的另一个关键性质。结果表明，隧穿增量使折射率变化（RIC）达到一个很大的值。减小探针场可以实现光的超光速传播，这在光学应用中具有重要意义。较弱的探针或具有中等隧穿的强泵浦可以产生最高的RIC值。

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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