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Atomic scale calculations for strain distribution and electronic structure of InAs pyramidal quantum dots on (100) GaAs

机译：（100）GaAs上InAs金字塔量子点的应变分布和电子结构的原子尺度计算

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The theoretical investigations for the strain distribution and electronic structure of InAs pyramidal quantum dots (QDs) have been performed using the Keating potential and the sp/sup 3/s* tight-binding method. The 161-, 1222-, and 4047-atom QDs on GaAs with no cap layers are studied. The strain energy is largest at the QD base layer and decreases rapidly with increasing distance from the base. We have calculated the energies, the wave function "inside" fractions, and the densities of states for the bulk states and the surface states. The density of the bulk states shows a large energy gap [2.71 eV (161-atom QD), 1.74 eV (1222-atom QD)] due to the strong confinement effect. We find the surface states from the {111} in facets of the QDs which are distributed in the different energy regions in the gap.

机译：使用Keating势和sp / sup 3 / s *紧密结合方法对InAs金字塔量子点（QD）的应变分布和电子结构进行了理论研究。研究了无盖层的GaAs上的161、1222-和4047原子QD。应变能在QD基层处最大，并且随着距基层距离的增加而迅速减小。我们已经计算了体积状态和表面状态的能量，波函数“内部”分数以及状态的密度。由于强的约束效应，体态的密度显示出大的能隙[2.71 eV（161原子QD），1.74 eV（1222原子QD）]。我们从量子点的{111}面中发现了表面状态，这些状态分布在间隙中的不同能量区域中。

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《》|1998年|P.643-646|共4页
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Saito; T.; Schulman; J.N.;
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中图分类无线电电子学、电信技术;
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1. The Calculation for Strain Distributions and Electronic Structure of InAs/GaAs Quantum Dots Based on the Eight-Band k center dot p Theory [J] . Shu Changgan, Liu Yumin Acta Physica Polonica . 2016,第3期

机译：基于八能谱k中心点p理论的InAs / GaAs量子点应变分布和电子结构的计算
2. INAS/GAAS PYRAMIDAL QUANTUM DOTS - STRAIN DISTRIBUTION, OPTICAL PHONONS, AND ELECTRONIC STRUCTURE [J] . Grundmann M., Bimberg D., Stier O. Physical Review, B. Condensed Matter . 1995,第16期

机译：INAS / GAAS金字塔形量子点-应变分布，光学声子和电子结构
3. Symmetry of k·p Hamiltonian in pyramidal InAs/GaAs quantum dots: Application to the calculation of electronic structure [J] . Nenad Vukmirovic, Dragan Indjin, Vladimir D. Jovanovic, Physical review. B, Condensed Matter And Materials Physics . 2005,第7期

机译：金字塔InAs / GaAs量子点中k·p哈密顿量的对称性：在电子结构计算中的应用
4. Atomic scale calculations for strain distribution and electronic structure of InAs pyramidal quantum dots on (100) GaAs [C] . Saito T., Schulman J.N., Institute of Electric and Electronic Engineer IEEE international symposium on compound semiconductors . 1998

机译：在（100）GaAs上的应变分布和电子结构的原子尺度计算和INAS金字塔量子点
5. (Indium,gallium)arsenic/gallium arsenide quantum-dot nanostructures: Strain distribution and electronic structure. [D] . Stoleru, Valeria Gabriela. 2002

机译：（铟，镓）砷/砷化镓量子点纳米结构：应变分布和电子结构。
6. Impact of N on the atomic-scale Sb distribution in quaternary GaAsSbN-capped InAs quantum dots [O] . Daniel F Reyes, David González, Jose M Ulloa, 2012

机译：N对GaAsSbN四元封顶的InAs量子点中原子级Sb分布的影响
7. Symmetry of $k\cdot p$ Hamiltonian in pyramidal InAs/GaAs quantum dots: Application to the calculation of electronic structure [O] . Vukmirović, Nenad, Indjin, Dragan, Jovanović, Vladimir D., 2007

机译：金字塔形Inas / Gaas量子点中$ k \ cdot p $ Hamiltonian的对称性：应用于电子结构的计算
8. Self-Assembled (In,Ga)As/GaAs Quantum-Dot Nanostructures: Strain Distribution and Electronic Structure [R] . Towe, E. , Stoleru, G. , Pal, D. 2001

机译：自组装（In，Ga）as / Gaas量子点纳米结构：应变分布和电子结构

Atomic scale calculations for strain distribution and electronic structure of InAs pyramidal quantum dots on (100) GaAs

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