2017年12月18日上午,受我院易飞副教授邀请,美国西北大学电子工程与计算机科学系SengTiong Ho教授在武汉国家光电实验室A101报告厅做了“微腔激光器:原理与技术“的学术报告。
我院刘欢教授、张建兵副教授、谭旻研究员,武汉国家光电实验室唐江教授,黄黎蓉教授,宋海胜副教授等参加了学术报告。Ho教授首先从纳米光子器件中光场模式截面积(Mode Area)的概念出发,比较了脊型波导激光器,光子晶体激光器,表面等离激元激光器的光子局限(Photon Confining)能力,进而引出了“微腔激光器”(Microcavity Lasers)这一类激光器的概念。Ho教授接着从辐射损耗,将自发辐射光子转化为单一光腔模式的能力,对激光器速率方程的修正和无阈值激射,以及高速内腔调制四个方面详细讨论了微腔激光器的特点。在报告中,Ho教授介绍了微腔激光器中的模式间隔,自发辐射耦合系数,Purcell系数等基本概念,并列举了微腔激光器中的若干实例,如微盘激光器,微环激光器,光子晶体微腔激光器,表面等离激元微腔激光器等。会后,Ho教授详细解答了听众们的提问。
本次光电信息大讲堂学术报告得到国家外专局高端外国专家项目(文教类)的资助(项目编号:GDW20174200072)。高端外国专家项目围绕我国经济和社会发展重点行业和关键领域的需求,重点引进能够突破关键技术、发展高新产业、带动新兴学科、发展国家经济的科学家、科技、经济领军人才、经营管理人才以及创新、创业人才。此项目对应于我校的“喻园家”计划(Second Home Plan)。本次光电信息大讲堂学术报告同时属于SengTiong Ho教授在光电学院开设的“微纳光子学英文公开课”的一个模块。课程以全英文方式密集讲授近场成像、电磁超材料、表面等离激元波导器件、微腔激光器等微纳光子学在近二三十年以来热点领域的原理与技术。课程内容经过完善后将与光电学院研究生国际化课程“平面光学导论”对接。
本次高端外国专家项目的目标是,通过开设微纳光子学英文公开课和举办光电信息大讲堂学术报告,并结合光电学院研究生国际化课程建设,实现我院与美国著名高校在微纳光子学领域课程体系的无缝对接;将世界范围内微纳光子学领域在近二三十年以来的新进展,新成果,新原理,新技术,以英语语境及逻辑体系的方式纳入到我院的教学实践中;为有志于出国深造的学生提供一个与北美高校完全对接的课程训练经历;为从事微纳光子学相关领域的同学与老师提供完善的知识基础及语言环境,并在此基础上开展相关的前沿研究和产业实践。
报告人简介:
Seng-Tiong Ho received the B.S. degrees in physics and electrical engineering, and M.S. in electrical engineering and computer science from Massachusetts Institute of Technology (MIT), Cambridge, Massachusetts, in 1984, and Ph.D. in electrical engineering from MIT in 1989. From 1989 to 1991, he was a Member of the Technical Staff at AT&T Bell Laboratories, Murray Hill, New Jersey. In 1991 he joined the faculty of Northwestern University, Evanston, Illinois. He is currently a Professor in the Department of Electrical and Computer Engineering.Ho has various awards and honors, including Fellow of the Optical Society of America, NSF Young Investigator Award, Newport Research Award of the Optical Society of America, and various invited lectureships. He has published widely and has contributed to various areas including: (1) Semiconductor Photonics: on monolithic photonic device integration, silicon photonics, DWDM chip technology, and III-V device modeling; (2) Nanophotonics: on photonic-wire semiconductor laser, quantum-dot microdisk laser, photonic bandgap structures, and ZnO random laser; (3) Optical Technology: on nonlinear optical devices and fiber-coupling platform; (4) Electro Optics: on self-assembled organic electro-optic modulator and ferroelectric thin-film modulator; and (5) Quantum Optics on non-classical light generation and quantum measurements. So far he has published 150 peer-reviewed journal papers, 178 conference papers including 53 invited talks and 7 book chapters.
