报告人简介: 蒋仕彬(Shibin Jiang)博士是AdValue Photonics公司的创建者和总裁,同时也是亚利桑那大学光学研究中心兼职教授。在他2007年建立AdValue Photonics前,他是NP Photonics的首席技术官(CTO)和联合创始人。蒋博士在浙江大学获得理学学士学位,在上海光学与精密机械所获得理学硕士学位,于1996年在法国雷恩第一大学获得博士学位。蒋仕彬博士发表了100多篇论文,编写过14本书籍,受邀超过25篇的特邀报告,拥有26个美国专利。蒋博士还担任了30多个国际会议的主持人、副主持人、委员。他于2005年荣获国际玻璃协会(ICG)“Gottardi Prize”。蒋博士还在2005年当选国际光学工程学会(SPIE)fellow,在2008年当选美国陶瓷学会(ACerS)fellow,在2011年当学美国光学学会(OSA)fellow。蒋博士还是浙江大学、南开大学、上海光机所和中科院的客座教授。
Dr. Shibin Jiang is the Founder and President of AdValue Photonics Inc and Adjunct Research Professor at College of Optical Sciences, University of Arizona. Before he founded AdValue Photonics Inc in June 2007, he was Chief Technology Officer and co-founder of NP Photonics Inc. Dr. Jiang obtained his BS from Zhejiang University, MS from Shanghai Institute of Optics and Fine Mechanics, and Ph.D. degree in 1996 from Universite de Rennes 1.He authored more than 100 publications, edited 14 proceeding books, delivered more than 25 invited talks, and holds 26 issued US patents. He served as chairs, co-chair, and program committee for more than 30 internationalconferences. Dr. Jiang was awarded with the Gottardi Prize in 2005 from International Commission on Glass (ICG). He is elected as a fellow of International Society for Optical Engineering (SPIE) in 2005, a fellow of the American Ceramic Society in 2008, and a fellow of the Optical Society of America in 2011.He serves as guest professor of Zhejiang University, Nankai University, and Shanghai Institute of Optics and Fine mechanics, Chinese Academy of Sciences.
报告摘要: 由于其相对于其它激光系统的独特优势,近几年,光纤激光器的研究和发展吸引了国内外广泛的注意。2微米光纤激光器作为一个新的研究方向,在材料处理、医学、激光遥感和国防上用途广泛。最近,主讲人所在公司研究开发了一种新型高掺铥石英光纤,这种光纤有很高的转换效率和单位长度增益。在报告中,主讲人将概括介绍“2um调Q单模光纤激光器”和“2um锁模光纤激光器”以及新波段大功率光纤激光器及其应用。
Research and development of fiber lasers has attracted significant attention in last several years because of its unique advantages over other laser systems. 2-micron fiber lasers is a new research topic, which exhibits a variety of applications including materials processing, medical applications, laser remote sensing, and direct energy source for defense. Recently, we developed a new type of highly Tm-doped glass fiber with extremely high efficiency and high gain per unit length. In this presentation, I will summarize our recent demonstration of 2 micron Q-switched single frequency fiber lasers and mode-locked 2 micron fiber lasers and reserch on high power new band fiber laser and its application.
|