近红外波段InAs量子点结构与光学特性

贾国治; 姚江宏; 舒永春; 王占国

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近红外波段InAs量子点结构与光学特性

研究论文 | 更新时间：2020-08-11

- 近红外波段InAs量子点结构与光学特性
- Optical Properties and Structure of InAs Quantum Dots in Near-Infrared Band
- 发光学报 2007年28卷第1期页码：104-108
- 作者机构：
  
  1. 南开大学, 弱光非线性光子学材料先进技术及制备教育部重点实验室
  2. 信息光子材料与技术重点实验室
  3. 泰达应用物理学院天津,300457
  4. 中国科学院, 半导体研究所北京,100083
- 作者简介：
- 基金信息：
  
  国家自然科学基金(60476042)();天津市应用基础研究计划重点项目(06YFJZJC01100)();长江学者和创新团队发展计划资助项目()
- DOI：
  中图分类号： O472.3;O482.31;TN304.2+3
- 收稿日期：2006-08-05，
  
  修回日期：2006-10-12，
  
  纸质出版日期：2007-01-20
- 稿件说明：
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贾国治, 姚江宏, 舒永春, 王占国. 近红外波段InAs量子点结构与光学特性[J]. 发光学报, 2007,28(1): 104-108

JIA Guo-zhi, YAO Jiang-hong, SHU Yong-chun, WANG Zhan-guo, . Optical Properties and Structure of InAs Quantum Dots in Near-Infrared Band[J]. Chinese Journal of Luminescence, 2007,28(1): 104-108
贾国治, 姚江宏, 舒永春, 王占国. 近红外波段InAs量子点结构与光学特性[J]. 发光学报, 2007,28(1): 104-108 DOI：

JIA Guo-zhi, YAO Jiang-hong, SHU Yong-chun, WANG Zhan-guo, . Optical Properties and Structure of InAs Quantum Dots in Near-Infrared Band[J]. Chinese Journal of Luminescence, 2007,28(1): 104-108 DOI：

摘要

采用分子束外延技术

分别在480

520℃的生长温度下

制备了淀积厚度2.7ML的InAs/GaAs量子点。用原子力显微镜对样品进行形貌测试和统计分布。结果表明

在相应的生长温度下

量子点密度分别为8.0×10

5.0×10

-2

提高生长温度有利于获得大尺寸的量子点

并且量子点按高度呈双模分布。结合光致发光谱的分析

在480℃的生长条件下

最近邻量子点之间的合并导致了量子点尺寸的双模分布;而在525℃的生长温度下

In偏析和InAs解析是形成双模分布的主要原因。

Abstract

Self-organized semiconductor structures with reduced dimensionality are currently attracting strong interest due to the potential device advantages.The size

distribution and density of quantum dots(QDs)influence on the optical and electrical properties of QDs device.The QDs with bimodal size distribution have been investigated widely due to its some distinctive features compared to the single Gaussian distribution QDs.Thus

it is very important to understand the effects of the growth parameters and mechanisms on the growth of bimodal size distribution QDs.The InAs QDs are grown on the(100)semi-insulating GaAs wafers in Riber 32 compact 21 solid source molecular beam epitaxy(MBE)system equipped with a valved cracker cell for arsenic and reflection high-energy electron diffraction(RHEED)for

in situ

monitoring of the growth process.Growth temperature is calibrated by infrared pyrometer.First

a GaAs buffer layer with thickness of 100 nm was deposited

and then a single layer of quantum dots was grown by depositing InAs with thickness of 2.7ML at different growth temperature(520℃ or 480℃)

finaly a 15 nm GaAs cap layer was deposited.The RHEED pattern shows a transformation from streaky to well developed diffraction spots

typical of a three dimensional(3D)growth mode.The same structures without cap layer were grown for atomic force microscopy(AFM)topographic investigation.The measurements of the distribution and topographic images of uncapped dots were taken ex situ by Nanoscope Ⅲ AFM.The photoluminescence(PL)measurements were performed in closed-cycle N

cryostat under the excitation of 514.5 nm line of an Ar

laser.Its luminescence spectra were detected with a Fourier transform infrared spectrometer operating with an InGaAs photodetector.Effect of growth temperature on the evolution of bimodal QDs is investigated by combining AFM and PL.The QDs density is significantly reduced from 8.0×10

-2

to 5.0×10

-2

as the growth temperature increases from 480℃ to 520℃

while the average QDs diameter and height becomes larger.The formation of bimodal QDs depends on the growth temperature:at 480℃ growth temperature

large QDs result from the small QDs coalition;at 520℃ growth temperature

indium desorption and InAs segregation result in the formation of small QDs.

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