学术报告会通知:Spintronics Microwave Technologies

发布者:朱枫发布时间:2013-06-03浏览次数:32

 

学术报告会通知

题  目: Spintronics Microwave Technologies

报告人:  Dr. Can-Ming Hu(University of Manitoba, Winnipeg, Canada)

时  间  2013066日(周四)10:00~11:00

地  点:  江宁开发区,秣周东路9号,无线谷A33412会议室

主  办 东南大学毫米波国家重点实验室

         IEEE AP-MTT-EMC Joint Nanjing Chapter

         江苏省电子学会天线与微波专委会

内容简介:

As the renaissance of Michael Faraday’s prophetic idea that magnetism, electricity, and light are macroscopically interconnected, advances in materials science, nanotechnology, and magnetism research have enabled investigation of the interplay of spins, charges, and photons at the microscopic level. It forms an exciting new research field of Dynamic Spintronics. New horizons emerge by using nanostructured spintronics devices to innovate existing microwave radar technique, to enhance tomographic microwave imaging approaches, as well as to improve the standard microwave antenna design procedure. In this talk, I will review our recent work performed on this new frontier by focusing on the physical principle and mechanisms, the technical advantages and challenges in implementing spintronics microwave technologies

报告人简介:

 Dr. Can-Ming Hu joined the Department of Physics and Astronomy at the University of Manitoba, Canada in 2005 as an Assistant Professor, where he became a Full Professor in 2012.  Dr. Hu graduated from the Department of Physics at Fudan University in 1988. He received the Ph. D degree in Solid State Physics at Wuerzburg University, Germany, in 1995. From 1996 to 1998, he served subsequently as an Assistant, Associate and Full Professor in Chinese Academy of Science. He was appointed in 1997 as the deputy director of the National Lab for Infrared Physics in Shanghai Institute of Technical Physics. From 1999 to 2005, he was a subgroup leader and teaching at the University of Hamburg, Germany, where he received the German Habilitation degree in 2006.  

Dr. Hu’s research has covered 4 different areas of condensed matter and wave physics, including spintronics, semiconductor physics, magnetism, and microwave technology. He has published over 70 papers in peer-reviewed journals, including 9 in Physical Review Letters. He has 3 US patents in microwave imaging. His special interest is in studying the physics of the interplay of spins, charges and photons in low-dimensional systems, and in developing spintronics microwave technologies.