Temperature Dependence on State Energies and Transition Frequency of Polaron in a Quantum Well with Asymmetric Gaussian Potential: Strong Coupling Method

被引：0

作者：

Zhi-Hui Liang

Xiu-Juan Miao

Yong Sun

Jing-Lin Xiao

机构：

[1] Inner Mongolia University for Nationalities,Institute of Condensed Matter Physics

来源：

International Journal of Theoretical Physics | 2020年 / 59卷

关键词：

Quantum well; Gaussian potential; Polaron; Strong coupling; Temperature; 71.38.-k; 73.21.fg; 73.20.-r; 63.20.kd; 63.22.-M;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

In the present work, the influence of temperature effect on polaron in a quantum well (QW) with asymmetric Gaussian potential (AGP). By employing strongly coupling method of Pekar variational (SCMPV), the ground state (GS), the first-excited state (FES) energies and transition frequency (TF) of the polaron are derived. The state-energies and the TF as relationship of the temperature T and the electron phonon coupling strength (EPCS) are obtained by using quantum statistics theory (QST). We have found that the state-energies and the TF increase when the temperature is increasing. The states-energies and the TF are decreased with raising the EPCS.

引用

页码：3418 / 3425

页数：7

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