Spin Effect of the Bound Magnetopolaron in a Triangular Quantum Well

Shan, Shu-Ping; Chen, Shi‐Hua

doi:10.1007/s10909-019-02224-4

Cited by 9 publications

(2 citation statements)

References 11 publications

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“…The conduction band and valence band have a strong interaction, so the conduction band and valence band have serious nonparabolicity, resulting in huge Rashba spin orbit splitting energy. The experiment results show that the electron spin orbit splitting energy appears 𝑘 3 . The Rashba effect of polaron with heavy hole characteristics in an asymmetric quantum dot was investigated within the Pekar variational method by the author of this article, and the conclusion obtained is consistent with the experiment.…”

mentioning

confidence: 92%

Influence of Temperature and Spin–Orbit Interaction on the Effective Mass of Polaron in an Anisotropic Quantum Dot

Shan,

Zou,

Zhuang

et al. 2023

J Low Temp Phys

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Using Tokuda's improved linear combination operator method and variational technique, the expression of the effective mass of strong coupled polaron in an anisotropic quantum dot is derived. Due to the spin orbit interaction, the effective mass of polaron splits into two branches. The dependence of effective mass on temperature, electron-phonon coupling strength, transverse and longitudinal confinement lengths and velocity is discussed by numerical calculation. The effective mass of polaron is an increasing function of temperature and electron-phonon coupling strength, and a decreasing function of transverse confinement length, longitudinal confinement length, and velocity. The absolute value of spin splitting effective mass increases with the increase of temperature and spin orbit coupling parameter, and decreases with the increase of transverse confinement length, longitudinal confinement length and velocity. Due to the heavy hole characteristic, the spin splitting effective mass is negative.

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confidence: 92%

Influence of Temperature and Spin–Orbit Interaction on the Effective Mass of Polaron in an Anisotropic Quantum Dot

Shan,

Zou,

Zhuang

et al. 2023

J Low Temp Phys

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“…It is not difficult to find that people have done a lot of research work on the Rashba effect in the electronic system, and a few people have done research on it in the field of polaron. For example, one of the authors of the paper [11] used the Lee-Low-Pines (LLP) variational method to study the Rashba effect of polaron in a triangular quantum well. The influence of the Rashba effect on the ground state energy of polaron in a parabolic quantum well was also studied using the same method.…”

Section: Introductionmentioning

confidence: 99%

The Effect of Vibration Frequency on the Effective Mass Spin Splitting of Polaron in a Parabolic Quantum Well

Shan,

Liu,

Zou

et al. 2024

Acta Phys. Pol. A

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Using Tokuda's improved linear combination operator method and variational technique, the expression of the polaron effective mass in a parabolic quantum well is derived. Due to the spin-orbit interaction, the effective mass ratio of polaron splits into two branches. The dependence of the effective mass ratio on the vibration frequency, the spin-orbit coupling parameter, and the velocity is discussed by numerical calculation in the presence and absence of phonon. The effective mass ratio of polaron is an increasing function of vibration frequency. The absolute value of the spin splitting effective mass ratio increases with the increase in the spin-orbit coupling parameter and decreases with the increase in velocity. Due to the heavy hole characteristic of spin-orbit interaction, the spin splitting effective mass ratio is negative. The effective mass ratio is larger in the presence of a phonon than in the absence of a phonon, and the effective mass ratio splitting distance is independent of the phonon. topics: parabolic quantum well, effective mass spin splitting, vibration frequency, heavy hole characteristic

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Influence of Rashba spin–orbit interaction on the effective mass of bound polaron in an anisotropic quantum dot

Shan

2024

Indian J Phys

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Spin Effect of the Bound Magnetopolaron in a Triangular Quantum Well

Cited by 9 publications

References 11 publications

Influence of Temperature and Spin–Orbit Interaction on the Effective Mass of Polaron in an Anisotropic Quantum Dot

Influence of Temperature and Spin–Orbit Interaction on the Effective Mass of Polaron in an Anisotropic Quantum Dot

The Effect of Vibration Frequency on the Effective Mass Spin Splitting of Polaron in a Parabolic Quantum Well

Influence of Rashba spin–orbit interaction on the effective mass of bound polaron in an anisotropic quantum dot

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