Structural and optical characterization of InAs nanostructures grown on high-index InP substrates

The structural and optical properties of InAs layers grown on high-index InP surfaces by molecular beam epitaxy are investigated in order to understand the self-organization of quantum dots and quantum wires on novel index surfaces. Four different InP substrate orientations have been examined, namely, (1 1 1)B, (3 1 1)A, and (3 1 1)B and (1 0 0). A rich variety of InAs nanostructures is formed on the surfaces. Quantum wire-like morphology is observed on the (1 0 0) surface, and evident island formation is found on (1 1 1)A and (3 1 1)B by atomic force microscopy. The photoluminescence spectra of InP (1 1 1)A and (3 1 1)B samples show typical QD features with PL peaks in the wavelength range 1.3-1.55 mu m with comparable efficiency. These results suggest that the high-index substrates are promising candidates for production of high-quality self-organized QD materials for device applications. (C) 1999 Elsevier Science B.V. All rights reserved.

6H-SiC高场输运特性的多粒子蒙特卡罗研究

采用非抛物性能带模型，对6H-SiC高场电子输运特性进行了多粒子蒙特卡罗(Ensemble Monte Carlo)研究．研究表明：温度为296 K时，电子横向漂移速度在电场为2．0×104 V／cm处偏离线性区，5．O×10~5V／cm处达到饱和．由EMC方法得到的电子横向饱和漂移速度为1．95×10~7cm／s，纵向为6．0×10~6cm／s，各向异性较为显著．当电场小于1．0×10~6 V／cm时，碰撞电离效应对高场电子漂移速度影响较小．另一方面，高场下电子平均能量的各向异性非常明显．电场大于2．O×10~5V／cm时，极化光学声子散射对电子横向能量驰豫时间影响较大．当电场一定时，c轴方向的电子碰撞电离率随着温度的上升而增大．对非稳态高场输运特性的分析表明：阶跃电场强度为1．0×10~6 V／cm时，电子横向瞬态速度峰值接近3．O×10~7cm／s，反应时间仅为百分之几皮秒量级．