This research group has broad interests in computational condensed matter physics and materials science. One major focus is the discovery of new quantum materials through the exploration of their geometric and topological properties. We are also deeply interested in understanding the electronic, magnetic, and optical responses of these materials, with the goal of enabling next-generation topological quantum devices for applications such as energy storage and quantum sensing.

May. 2026. Congratulations to Chia-Hsiu for the publication of "Stabilizing Topological States in ZrTe5 from First-Principles Defect Physics" in Nano Letters

Apr. 2026. Congratulations to Sen Shao for the publication of "Interlayer Charge-Density-Wave Vector Phase Induced Structural Chirality" in Physical Review Letters

Jan. 2026. Congratulations to Mohammad YAHYAVI for the publication of "Wave-Function-Free Approach for Predicting Nonlinear Responses in Weyl Semimetals" in Physical Review Letters

Apr. 2024 "Dual quantum spin Hall insulator by density-tuned correlations in TaIrTe4" Published in Nature

May 2023 Congratulations to Sen Shao for the publication of "Intertwining of magnetism and charge ordering in kagome FeGe" in ACS Nano

Apr. 2022 "Observation of a linked-loop quantum state in a topological magnet" published in Nature

Apr. 2021 "Weyl, Dirac and high-fold chiral fermions in topological quantum matter" published in Nature Reviews Materials