自组装GaInAs量子线中应变诱导的横向有序和量子效应

Conference Proceedings. 2001 International Conference on Indium Phosphide and Related Materials. 13th IPRM (Cat. No.01CH37198) Pub Date : 2001-05-14 DOI:10.1109/ICIPRM.2001.929014

K. Cheng, D.E. Wohlert

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引用次数: 0

摘要

在分子束外延过程中，利用应变诱导的横向层有序(SILO)工艺制备了GaInAs量子线(QWR)结构。SILO工艺是一种用于创建qwr的一步完全原位自组装方法。所得到的量子水阱密集阵列具有低缺陷密度、小的类量子尺寸和强的侧向约束。更重要的是，通过SILO工艺生长的GaInAs qwr的带隙对温度变化的响应方式偏离了III-V半导体的标准。这种与SILO生长GaInAs qws温度相关的带隙行为在物理上是有趣的，并且可能适用于光电子器件。

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Strain-induced lateral ordering and quantum effects in self-assembled GaInAs quantum wires

GaInAs quantum wire (QWR) structures have been fabricated using the strain-induced lateral-layer ordering (SILO) process during molecular beam epitaxy. The SILO process is a one-step completely in situ self-assembly method for creating QWRs. The resultant dense array of QWRs has a low defect density, small quantum-like dimensions, and demonstrate strong lateral confinement. More importantly, the band gap of GaInAs QWRs grown by the SILO process responds to temperature changes in ways that deviate from the norm for III-V semiconductors. This band gap behavior with respect to temperature of SILO grown GaInAs QWRs is both physically interesting and potentially applicable to optoelectronic devices.

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Conference Proceedings. 2001 International Conference on Indium Phosphide and Related Materials. 13th IPRM (Cat. No.01CH37198)

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