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Main Authors: Ba, Cao Thi Vi, Bau, Nguyen Quang, Huong, Nguyen Thu, Dung, Bui Thi, Tran, Anh-Tuan
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2407.09938
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author Ba, Cao Thi Vi
Bau, Nguyen Quang
Huong, Nguyen Thu
Dung, Bui Thi
Tran, Anh-Tuan
author_facet Ba, Cao Thi Vi
Bau, Nguyen Quang
Huong, Nguyen Thu
Dung, Bui Thi
Tran, Anh-Tuan
contents In this study, based on the quantum kinetic equation approach, we systematically present the radio-electric effect in asymmetric semi-parabolic quantum wells under the influence of a laser radiation field taking into account the electron-longitudinal optical phonon scattering mechanism. The numerical results show that the blue-shift of the maximum peaks in the photon energy range is less than 60 meV. The height of maximum peaks increases according to an exponential rule, depending nonlinearly on the structural parameters of the asymmetric semi-parabolic quantum wells. In the photon energy range greater than 100 meV, the saturated radio-electric field increases with temperature and geometric parameters of the quantum well. The results show the differences between symmetric and asymmetric semi-parabolic quantum wells, highlighting the influence of asymmetric structures on radio-electric effects in two-dimensional quantum well systems.
format Preprint
id arxiv_https___arxiv_org_abs_2407_09938
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Theoretical Study of the Photo-stimulated Radio-electric Effect in Asymmetric Semi-parabolic Quantum Wells
Ba, Cao Thi Vi
Bau, Nguyen Quang
Huong, Nguyen Thu
Dung, Bui Thi
Tran, Anh-Tuan
Mesoscale and Nanoscale Physics
In this study, based on the quantum kinetic equation approach, we systematically present the radio-electric effect in asymmetric semi-parabolic quantum wells under the influence of a laser radiation field taking into account the electron-longitudinal optical phonon scattering mechanism. The numerical results show that the blue-shift of the maximum peaks in the photon energy range is less than 60 meV. The height of maximum peaks increases according to an exponential rule, depending nonlinearly on the structural parameters of the asymmetric semi-parabolic quantum wells. In the photon energy range greater than 100 meV, the saturated radio-electric field increases with temperature and geometric parameters of the quantum well. The results show the differences between symmetric and asymmetric semi-parabolic quantum wells, highlighting the influence of asymmetric structures on radio-electric effects in two-dimensional quantum well systems.
title Theoretical Study of the Photo-stimulated Radio-electric Effect in Asymmetric Semi-parabolic Quantum Wells
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2407.09938