Normal and superconducting states of cuprates: an emergent Bose liquid?

After receiving his PhD degree from University of Tennessee at Knoxville in 2000, professor Wei Ku conducted his postdoctoral research in University of California at Davis from 2001 to 2003. He then worked as a staff scientist (Assistant Physicist, Associate Physicist, and Physicist) in Brookhaven National Laboratory and served as an Adjunct Professor in Stony Brook University since 2003, until he accepted the Zhiyuan Professor position in Shanghai Jiao Tong University in 2016. In 2018, professor Wei Ku was appointed Deputy Director of the newly found Tsung-Dao Lee Institute in Shanghai, assisting Founding Director Frank Wilczek, the 2004 Nobel Laureate in Physics. His main research area is theory and computation of condensed matter physics in real materials, with contributions mostly in the field of Fe-based high-temperature superconductors, electronic excitations, and first-principles computational methods. He has published more than 80 manuscripts, about half of which are in high-profile journals like the PNAS, Nature Physics, Phys. Rev. X, and Phys. Rev. Lett. He is currently developing an “emergent Bose liquid” theory for strongly correlated condensed matter systems, and applying it to the description of electronic structure of high-temperature superconducting cuprates.