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Spectral dependence of THz emission from InN and InGaN layers

机译：InN和InGaN层的THz发射的光谱依赖性

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摘要

Spectral dependence of terahertz emission is a sensitive tool to analyze the structure of conduction band of semiconductors. In this work, we investigate the excitation spectra of THz pulses emitted from MOCVD-grown InN and InGaN epitaxial layers with indium content of 16%, 68%, and 80%. In InN and indium-rich InGaN layers we observe a gradual saturation of THz emission efficiency with increasing photon energy. This is in stark contrast to other III-V semiconductors where an abrupt drop of THz efficiency occurs at certain photon energy due to inter-valley electron scattering. From these results, we set a lower limit of the intervalley energy separation in the conduction band of InN as 2.4 eV. In terms of THz emission efficiency, the largest optical-to-THz energy conversion rate was obtained in 75 nm thick In0.16Ga0.84N layer, while lower THz emission efficiency was observed from InN and indium-rich InGaN layers due to the screening of built-in field by a high-density electron gas in these materials.

机译：太赫兹发射的光谱依赖性是分析半导体导带结构的灵敏工具。在这项工作中，我们研究了铟含量分别为16％，68％和80％的MOCVD生长的InN和InGaN外延层发射的THz脉冲的激发光谱。在InN和富铟InGaN层中，随着光子能量的增加，THz发射效率逐渐饱和。这与其他III-V半导体形成鲜明对比，在其他III-V半导体中，由于谷间电子散射，在一定的光子能量下，THz效率突然下降。根据这些结果，我们将InN导带中的间隔能量分离的下限设置为2.4 eV。就太赫兹发射效率而言，在75 nm厚的In0.16Ga0.84N层中获得了最大的光-太赫兹能量转换率，而由于对InN和富铟的InGaN层进行了屏蔽，因此观察到了更低的太赫兹发射效率。这些材料在高密度电子气中形成内置场。

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期刊名称 Scientific Reports
作者
Ričardas Norkus; Ramūnas Aleksiejūnas; Arūnas Kadys; Marek Kolenda; Gintautas Tamulaitis; Arūnas Krotkus;
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年(卷),期 -1(9),-1
年度 -1
页码 7077
总页数 6
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1. Spectral dependence of THz emission from InN and InGaN layers [J] . Ri?ardas Norkus, Ramūnas Aleksiejūnas, Arūnas Kadys, Scientific reports. . 2019,第1期

机译：InN和InGaN层的THz发射的光谱依赖性
2. Pressure dependence of elastic constants in zinc-blende GaN and InN and their influence on the pressure coefficients of the light emission in cubic InGaN/GaN quantum wells [J] . S.P. Lepkowski, J.A. Majewski Solid State Communications . 2004,第12期

机译：掺锌GaN和InN中弹性常数的压力依赖性及其对立方InGaN / GaN量子阱中发光压力系数的影响
3. Pressure dependence of elastic constants in zinc-blende GaN and InN and their influence on the pressure coefficients of the light emission in cubic InGaN/GaN quantum wells [J] . Lepkowski SP, Majewski JA Solid State Communications . 2004,第12期

机译：掺锌GaN和InN中弹性常数的压力依赖性及其对立方InGaN / GaN量子阱中发光压力系数的影响
4. Dependence of the E_2 and A_1(LO) modes on InN fraction in InGaN epilayers [C] . S.Hernandez, K.P.ODonnell, R.W.Martin, Symposium on GaN, AIN, InN and Their Alloys . 2005

机译：e_2和a_1（lo）模式对IngaN癫痫的In In In Inn Inn
5. Optical Analysis of InN and InGaN Nanostructures =Optische Analyse von InN und InGaN-Nanostrukturen [D] . Ries, Maximilian Daniel Cedric. 2021

机译：Inn和IngaN Nanostrctures的光学分析= Optiant Analsite Von Ind Indoostructure
6. Multi-wavelength emission from a single InGaN/GaN nanorod analyzed by cathodoluminescence hyperspectral imaging [O] . Gunnar Kusch, Michele Conroy, Haoning Li, -1

机译：阴极发光高光谱成像分析的单个InGaN / GaN纳米棒的多波长发射
7. Spectral dependence of THz emission from InN and InGaN layers [O] . Ričardas Norkus, Ramūnas Aleksiejūnas, Arūnas Kadys, 2019

机译：THz排放宾馆和IngaN层的光谱依赖性

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