Interplay of Confinement, Strain, and Piezoelectric Effects in the Optical Spectrum of GaN Quantum Dots

Vladimir A. Fonoberov; Evghenii P. Pokatilov; Alexander A. Balandin

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Interplay of Confinement, Strain, and Piezoelectric Effects in the Optical Spectrum of GaN Quantum Dots

机译：GaN量子点光谱中的约束，应变和压电效应的相互作用

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We theoretically investigated excitonic states, energy and oscillator strength of optical transitions in GaN quantum dots characterized by different size, shape, interface, and substrate. On the basis of our multi-band model we determined that the piezoelectric field-induced red shift of the ground state transition, observed in recent experiments, can manifest itself only in strained GaN/AIN dots with the dot height larger than 3 nm. It was also established that the oscillator strength of the red-shifted transitions is small (<0.05) and decreases fast with increasing the dot size, while the strength of ground state transitions in c-GaN/c-AIN and GaN/dielectric dots is large (-0.4-0.7) and almost independent of the dot size.

机译：我们从理论上研究了以不同尺寸，形状，界面和衬底为特征的GaN量子点中光跃迁的激子态，能量和振荡器强度。根据我们的多频带模型，我们确定了在最近的实验中观察到的压电场引起的基态跃迁的红移只能在点高大于3 nm的应变GaN / AIN点中表现出来。还可以确定，红移跃迁的振荡器强度很小（<0.05），并且随着点尺寸的增加而快速降低，而c-GaN / c-AIN和GaN /介电点的基态跃迁强度为大（-0.4-0.7），几乎与点大小无关。

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《Journal of nanoscience and nanotechnology》 |2003年第3期|共4页
作者
Vladimir A. Fonoberov; Evghenii P. Pokatilov; Alexander A. Balandin;
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正文语种 eng
中图分类特种结构材料;
关键词
GaN Quantum Dots; Confinement; Strain; Piezoelectric Effect;

机译：GaN量子点约束应变压电效应;

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1. Interplay of Confinement, Strain, and Piezoelectric Effects in the Optical Spectrum of GaN Quantum Dots [J] . Vladimir A. Fonoberov, Evghenii P. Pokatilov, Alexander A. Balandin Journal of nanoscience and nanotechnology . 2003,第3期

机译：GaN量子点光谱中的约束，应变和压电效应的相互作用
2. Effects of spontaneous and piezoelectric polarization fields on the electronic and optical properties in GaN/AlN quantum dots: multimillion-atom sp3d5s* tight-binding simulations [J] . Sasi S. Sundaresan, Vamsi M. Gaddipati, Shaikh S. Ahmed International journal of numerical modelling . 2015,第3期

机译：自发和压电极化场对GaN / AlN量子点中电子和光学性质的影响：数百万个原子的sp3d5s *紧密结合模拟
3. Optical phonons in nanostructured thin films composed by zincblende zinc selenide quantum dots in strong size-quantization regime: Competition between phonon confinement and strain-related effects [J] . Biljana Pejova Journal of Solid State Chemistry . 2014,第Null期

机译：闪锌矿硒化锌量子点组成的纳米结构薄膜中的光子具有强的尺寸定量机制：声子约束与应变相关效应之间的竞争
4. Effects of Quantum Confinement on Optical properties of InN/GaN Quantum dots [C] . Deborah Eric, Jianliang Jiang, Ali Imran, SPIE Conference on Applied Optics and Photonics China . 2019

机译：量子限制对宜兰量子点光学性质的影响
5. Confinement Effects on the Electronic and Optical Properties of Semiconductor Quantum Dots Revealed with Two-Dimensional Coherent Spectroscopy. [D] . Moody, Galan. 2013

机译：二维相干光谱法揭示了半导体量子点的电子和光学性质的限制效应。
6. Effects of Shape and Strain Distribution of Quantum Dots on Optical Transition in the Quantum Dot Infrared Photodetectors [O] . X-F Yang, X-S Chen, W Lu, 2008

机译：量子点的形状和应变分布对量子点红外光电探测器光学跃迁的影响
7. Strain effects on the valence band structure, optical transitions, and light gain spectrums in zinc-blende GaN quantum wells [O] . Lokot L.O. 2008

机译：应变对掺锌GaN量子阱中的价带结构，光学跃迁和光增益谱的影响
8. Piezoelectric Effects on the Optical Properties of GaN/Al(x)Ga(1-x)N Multiple Quantum Wells; Applied Physics Letters [R] . Botchkarev, A. , Chow, W. W. , Jiang, H. X. , 1998

机译：压电效应对GaN / al（x）Ga（1-x）N多量子阱的光学性质的影响2。应用物理快报

Interplay of Confinement, Strain, and Piezoelectric Effects in the Optical Spectrum of GaN Quantum Dots

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