驻波场下双量子点-金属纳米粒子耦合系统中的电感应强度

Haneen Akram, Muwaffaq Abdullah, El Mustapha Feddi, Amin H. Al-Khursan, Ali M. Muslim
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引用次数: 0

摘要

这项工作的主要目的是研究由双量子点(DQD)和金属纳米粒子(MNP)混合系统组成的混合纳米结构在驻波场下的线性易感性。在我们的模型中,我们使用了密度矩阵方程,考虑了激子和表面质子之间的相互作用。拟议的 DQD 由两个 QD 组成。每个 QD 包含一个圆盘形状的 InAs QD。我们考虑了 QD 与润湿层 (WL) 之间的相互作用。对驻波场在 DQD-MNP 混合系统上的应用进行了建模和检验。在驻波场下,泵场降低了 DQD-MNP 混合系统的电感。MNP 半径越大,电感率越高。一个有趣的结果显示了光栅周期与导带中隧道分量的反转。由于量子化效应,较小尺寸的 DQD 具有较高的电感。
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Susceptibility in a Coupled Double Quantum Dot-Metal Nanoparticle System under Standing Wave Field
The main purpose of this work is studying the linear Susceptibility in the hybrid nanostructure that composed of a dual quantum dot (DQD) and metal nanoparticle (MNP) hybrid system under a standing-wave field. In our model, we used density matrix equations by taking into our account the interaction between excitons and surface plasmons. The proposed DQD is composed of two QDs. Each QD contains an InAs QD with a disk shape. The interaction between the QD and the wetting layer (WL) is taken into consideration. The application of the standing wave field on DQD-MNP hybrid system was modeled and examined. The susceptibility of thehybridDQD-MNPsystem reduced by the pump field under a standing-wave field. The high susceptibility obtained with a wide MNP radius. An interesting result was shown in the inversion of the grating period with the tunneling component in the conduction band. The smaller size of DQD gave us high susceptibility due to the quantization effect.
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