The Tsung-Dao Lee Institute (TDLI) in Shanghai, China, is organising a mini-School on Scattering Spectroscopy for Quantum Materials Research, by Prof. Yuan Li from the International Center for Quantum Materials, Peking University. This mini-School will be held in TDLI Meeting Room 200, Minhang Campus of Shanghai Jiao Tong University, during August 09-13, 2020, and there is no registration fee. You are also welcomed to join us online. The detailed information is as follows:
Time | Title |
13:30, August 9 | Crystal symmetries and representation |
13:30, August 10 | Polarized Raman scattering as a symmetry probe |
13:30, August 11 | Advanced scattering methods and implementation |
13:30, August 12 | Selected topics on X-ray scattering |
13:30, August 13 | Selected topics on neutron scattering |
Tencent Meeting:
Link: https://meeting.tencent.com/s/Ma8s8flFMGI5 ID: 82388482280 Password: 123456
If you plan to visit TDLI in person, please contact Ms. Jialin Yang (jlyang@sjtu.edu.cn) for help.
Organizer: Jianda Wu (TDLI)
Please contact Jialin Yang at jlyang@sjtu.edu.cn, if you have any questions.
Yuan Li received his B.S. degree from Peking University in 2004, and Ph.D. degree from Stanford University in 2010. He was a Humboldt Research Fellow at the Max Planck Institute for Solid State Research, Germany, from 2010 to 2012. Since then, he has been working at the International Center for Quantum Materials, Peking University. He has published about 60 research papers in peer-reviewed journals and presented over 40 invited talks at international conferences and institutions. His recent research awards include Wang Xuan Prize for Young Scholars of Peking University (2017-2019) and Sir Martin Wood China Prize for low-temperature physics (2021).
His research involves the use of state-of-the-art scattering spectroscopic methods, in particular neutron and photon scattering, to study the structure and dynamics of materials with electron correlations. He also synthesizes single crystals to support the spectroscopic measurements. The fundamental goal is to discover and understand new organizing principles of elementary and emergent degrees of freedom in quantum materials such as high-temperature superconductors and quantum magnets.
Vedio Links:
August 09: https://vshare.sjtu.edu.cn/open/525f058a2e5a30366fa282cdf1682f70
August 10: https://vshare.sjtu.edu.cn/open/47a12fb4b6164303f99be2b45422270c
August 11: https://vshare.sjtu.edu.cn/open/adc729dc149ab6b35ae06bfd7f4fdeda
August 12: https://vshare.sjtu.edu.cn/open/cb043e3be8eafceaca9320486b5c4125
August 13: https://vshare.sjtu.edu.cn/open/9b59e2e152efa83d6cc78db25b15827d
