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学术报告
更新时间 :2015-09-22 15:03:02   浏览次数::285

报告题目:Road Beyond CMOS

报告人:闵泰教授
报告时间:2015925号下午3
报告地点物理学院三层报告厅
内容简介
For past 50 years, charge based silicon technology and scaling law (Moore’s Law) have been the fundamental driver of computational technology, catalyst for the emergence of the Digital Age. In this “no trade-off” era, consistent exponential performance growth is sustained by vigorous feature scaling, while computation is kept utilizing the Boolean logic and Von Neumann architecture system, achieving exact calculation and communication gain through noise suppression. However, as the technology node reaches beyond 10nm, the complexity of Si-based transistor has increased tremendously and become cost-prohibitive, new functional material needs to be developed. All industry-developed countries and world major semiconductor companies are actively searching for the next “Genome” material to replace Si. Currently, the low dimensional physical material system like Graphene, MX2, topological insulator, ultra-thin spintronic thin film system are being eagerly explored as candidates which promises many revolutionary ways of future computing.
报告人简介:
闵泰 教授,现任西安交通大学材料学院教授,2011年入选国家“千人计划”。1985年本科毕业于中国科技大学物理系,1993年在美国明尼苏达大学电机系获博士学位。曾在欧洲微电子研究中心,以及美国TDK/MagIC/Headway等国际一流半导体机构历任项目总监、高级主管、首席技术专家等职务。研究领域包括低维介观量子体系材料、器件的电磁声光元激发和量子输运理论;低维介观量子体系材料、器件的仿真和模拟;新材料(石墨烯,拓扑绝缘体、MX2,磁性超薄膜等)的埃米生长技术(磁控溅射,ALD,CVD)和物理表征(<1K低温>60特斯拉高磁场,飞秒激光激发等);5纳米以下量子器件工艺研发;量子计算、类脑计算与存储系统设计、优化和应用技术的研究和开发;磁性生化医疗microfluidic测试系统的研究和开发。拥有60多项美国颁发的专利,其中以第一发明人获得专利40多项。累计发表学术论文30多篇,包括IEDM, SPIE, IEEE Tran., JAP, Phys. Rev. B等。
 
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