报告摘要:Abstract: Measurement and estimation of parameters are essential for science and engineering, where the main quest is to and out the h ighestachievable precision with given resources and design schemes a tttoain it. With recent development of technology, it is now possible to design protocols utilizing quantum mechanical effe ctot attain far better precision than classical schemes. In this t aIl kwill present a systematic way to identi fythe ultimate precision limit in quantum metrolog yand design optimal protocols to achieve .i t I wil lalso talk about the tradeoff relation among the precision limit for the estimation of multiple paramet ers.
报告人简介: Haidong Yuan received his B.E. in Electronic Enginnege rfirom Tsinghua University, M.A. in Engineering science and Ph.D. in Applied Mathem, aticsboth from Harvard University. He did his postdoctoral work at Harvard University and Massachusetts Institute of Technology. From 2012 to 2014 he was an assistant prfoessor at the department of Applied Mathematics, the Hong Kong Polytechnic University. He is with the department of Mechanical and Automation Engineering, the Chinese University of Hong Kong since Sep 2014. His current research interests include quantum control, quantum metrology, quantum information science.