Summary
Tsung-han Lee is an Assistant Professor at National Chung Cheng University and a condensed matter theorist with 11 years of research experience specializing in strongly correlated systems such as transition metal oxides, heavy fermions, and high-Tc superconductors. He develops and combines advanced theoretical tools—dynamical mean field theory, slave-boson/Gutzwiller methods, and ab initio embeddings—to make predictions for realistic materials and to bridge low- and high-energy excitations. His prior work at Rutgers and Florida State involved building software for DFT+many-body approaches, unifying quantum embedding theories, and introducing innovations like a ghost-orbital extension to capture Hubbard bands. Comfortable spanning analytical renormalization-group studies to computational quantum Monte Carlo and response-function algorithms, he brings both methodological invention and practical materials insight. Based in Taiwan, he blends deep theoretical rigor with hands-on code development to tackle open problems in correlated quantum materials.
11 years of coding experience
12 years of employment as a software developer
Doctor of Philosophy - PhD, Condensed Matter and Materials Physics, Doctor of Philosophy - PhD, Condensed Matter and Materials Physics at Florida State University
Bachelor of Science (B.Sc.), Physics, Bachelor of Science (B.Sc.), Physics at National Chung Cheng University
MSc, Condensed Matter and Materials Physics, MSc, Condensed Matter and Materials Physics at National Tsing Hua University
English, Chinese, Mandarin