Optical, magnetic, and transport properties of two-dimensional III-nitride semiconductors (AlN, GaN, and InN) due to acoustic phonon scattering.

IF 4.6 3区 材料科学 Q2 CHEMISTRY, MULTIDISCIPLINARY Nanoscale Advances Pub Date : 2024-10-04 DOI:10.1039/d4na00598h
Ho Kim Dan, Pham Tuan Vinh, Nguyen Dinh Hien
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Abstract

In this paper, the magneto-optical transport (MOT) properties of III-nitride Pöschl-Teller quantum well (QW) semiconductors, including AlN, GaN, and InN, resulting from the acoustic phonon interaction are thoroughly investigated and compared by applying the technique of operator projection. In particular, a comparison is made between the Pöschl-Teller QW results and the square QW ones. The findings demonstrate that the MOT properties of III-nitride QW semiconductors resulting from acoustic phonon scattering are strongly influenced by the quantum system (QS) temperature, applied magnetic field, and QW width. When the applied magnetic field and QS temperature increase, the absorbing FWHM in AlN, GaN, and InN increases; on the other hand, it diminishes when the QW's width increases. The absorbing FWHM in GaN is smaller and varies slower compared with AlN; inversely, it is larger and varies faster compared with InN. In other words, the absorbing FWHM in AlN is the largest and the smallest in InN. Compared to the square QW in AlN, GaN, and InN, the absorbing FWHMs in the Pöschl-Teller QW vary more quickly and have greater values. The absorbing FWHMs resulting from the acoustic phonon interaction in III-nitrides are strongly dependent on the nanostructure's geometric shape and parameters. Our findings provide useful information for the development of electronic devices.

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声子散射导致的二维 III 族氮化物半导体(AlN、GaN 和 InN)的光学、磁学和传输特性。
本文通过应用算子投影技术,深入研究并比较了包括氮化铝、氮化镓和氮化铟在内的三氮化物波尔-泰勒量子阱(QW)半导体在声学声子相互作用下产生的磁光传输(MOT)特性。特别是对波氏-泰勒 QW 结果和方形 QW 结果进行了比较。研究结果表明,声子散射导致的 III 氮化物 QW 半导体的 MOT 特性受到量子系统(QS)温度、外加磁场和 QW 宽度的强烈影响。当外加磁场和 QS 温度升高时,AlN、GaN 和 InN 的吸收 FWHM 会增大;另一方面,当 QW 的宽度增大时,吸收 FWHM 会减小。与氮化镓相比,氮化镓的吸收截距较小,变化较慢;相反,与氮化铟相比,氮化铟的吸收截距较大,变化较快。换句话说,AlN 中的吸收 FWHM 最大,InN 中的吸收 FWHM 最小。与 AlN、GaN 和 InN 中的方形 QW 相比,Pöschl-Teller QW 中的吸收 FWHM 变化更快,数值更大。在 III 型氮化物中,声子相互作用产生的吸波 FWHM 与纳米结构的几何形状和参数密切相关。我们的发现为电子器件的开发提供了有用的信息。
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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来源期刊
Nanoscale Advances
Nanoscale Advances Multiple-
CiteScore
8.00
自引率
2.10%
发文量
461
审稿时长
9 weeks
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