[黄昆论坛]第373期:Energy Harvesting by Spin Current
[黄昆论坛]第372期:Enhancement of Light Color Conversion through Nanoscal...
[黄昆论坛]第371期: 光力学中的拓扑和非互易动力学
[黄昆论坛]第370期:Recent Advances of 2D Metal-Complex Nanosheets
[黄昆论坛]第369期:High-speed optoelectronics for underwater optical wire...
[黄昆论坛]第368期:The Development of Low Noise Avalanche Photodiodes
[黄昆论坛]第367期:氧化钛纳米棒的制备以及在染料敏化太阳电池中的应用
[黄昆论坛]第366期:Valleytronics and correlated phase probed by interlaye...
[黄昆论坛]第365期:低维纳米材料的极化激元及其增强红外光谱研究
[黄昆论坛]第364期:微纳光子的高效操控与室温量子态
官方微信
友情链接

第152期:Silicon Based Germanium Tin Alloys: Extension of the Infrared Range

2011-11-11

报告题目:Silicon Based Germanium Tin Alloys: Extension of the Infrared Range

报 告 人:Prof. Erich Kasper (Institut für Halbleitertechnik, Universität Stuttgart, Germany)

时间:2011年11月14日(星期一)下午15:00

地点: 中国科学院半导体研究所学术沙龙室

Abstract:Germanium tin( GeSn) is predicted to convert from an indirect semiconductor at low Sn contents to a direct one at higher Ge contents. The bandgap is lower than that of Ge , there by extending the spectral range beyond a wavelength of 1.55 µm. Single phase GeSn alloys are important for silicon based heterostructure devices as stressors for Ge channels and as candidates for direct/indirect band cross-over. Such alloys would allow superior Ge channel metal on insulator devices and optoelectronic infrared circuits on a Si substrate. Germanium tin (GeSn) is under equilibrium a two phase (Ge+Sn) system. Preparation of GeSn layers is possible at low growth temperatures. We discuss the challenges caused by the non-equilibrium growth and the limitations of low temperature epitaxy. Main challenges and limitations are the surface segregation, precipitations and defect accumulation in low temperature epitaxy. The problem of high lattice mismatch between Si and GeSn (> 4 %) can be solved using virtual substrates with strain relaxed Ge buffer layers. The lattice mismatch can be reduced to 1 % and below. Growth of pseudomorphic GeSn layers on Ge buffers/Si substrate was investigated. The samples were characterized by X-ray methods and Raman spectroscopy. High device process stability was achieved up to 600°C annealing and documented by Raman spectroscopy. Fabrication of a photodetector test device demonstrated feasibility for optoelectronic applications with extended infrared range. Light emitting diodes from low Sn content alloys confirmed the predicted red shift of the direct bandgap emission.

报告人简介: Erich Kasperreceived the Ph.D. degree in physics from the University of Graz, Graz, Austria, in 1971. His dissertation thesis concerned electrical properties of dislocations in silicon.He was active as a Scientist with the research laboratories of the companies Telefunken, AEG and Daimler-Benz. His main research concerned solid-state analysis by X-ray topography and electron microscopy, material synthesis by MBE, and semiconductor device preparation for microwave applications. From 1987 on, he was responsible for novel silicon devices and technology with Daimler-Benz Research, Ulm, Germany, with a main emphasis on SiGe/Si-based heterostructures for fast transistors (heterobipolar transistor-HBT, modulation doped field effect transistor MODFET) and opto-electronic transceivers (ultrathin superlattice).Since 1993, he has been with the University of Stuttgart, Stuttgart, Germany, as Professor of Electrotechnical Engineering and Head of the Institute of Semiconductor Engineering. His main interest is directed to silicon-based nanoelectronics, integration of millimeter-wave circuits, and SiGe/Si quantum-well devices. In 2008 he retired as Institute Head but retained with University of Stuttgart as Research Professor. He was appointed as Guest Professor at Huazhong University of Science and Technology(HUST), Wuhan, China in 2009, and he continues to lecture at the Montanuniversitaet in Leoben, Austria. Recent activities focus on exploitation of research results, on application of Ge/Si for photovoltaics and energy harvesting and on mm-wave imaging.



关于我们
下载视频观看
联系方式
通信地址

北京市海淀区清华东路甲35号(林大北路中段) 北京912信箱 (100083)

电话

010-82304210/010-82305052(传真)

E-mail

semi@semi.ac.cn

交通地图
版权所有 中国科学院半导体研究所

备案号:京ICP备05085259-1号 京公网安备110402500052 中国科学院半导体所声明