Willkommen! I'm a theorist in condensed matter physics and quantum information. I studied and worked in Xi'an, Los Angeles, Columbus, and Munich. I am currently a postdoctoral fellow with the Quantum Matter / Quantum Information Theory Group at the Technical University of Munich, Germany, and was formerly a graduate student in Prof. Trivedi's group at The Ohio State University, USA.
My research focuses on quantum many-body systems, especially frustrated quantum matter, quantum spin liquids, topological entanglement, exotic quasiparticle dynamics, and computational approaches to strongly correlated electrons.
I work on theoretical problems in frustrated magnetism, quantum spin liquids, and quantum information, with an emphasis on how topology, entanglement, and fractionalization emerge in interacting many-body systems. Much of my work aims to connect these structures to observable signatures in spectroscopy, dynamics, and transport.
I study Kitaev systems, triangular-lattice magnets, and related frustrated quantum matter where conventional magnetic order gives way to long-range entanglement, emergent gauge structure, and exotic quasiparticles.
My work explores topological entanglement, subsystem structure, and the detection of fractionalized excitations in quantum phases that lie beyond the standard symmetry-breaking framework.
I investigate nonequilibrium dynamics, anyon and spinon response, and anomalous transport phenomena such as suppressed heat conduction in gapless quantum magnets.
I also develop and use computational approaches, including Monte Carlo methods, statistical representations of entanglement, and machine learning for identifying structure in strongly correlated systems.
For publications and more details, see the Research page.
Recent updates, small projects, and things I find worth sharing.
March 15, 2026
I recently put together a simple Streamlit app for spin-wave exploration. It is meant as a lightweight interactive tool for building intuition and experimenting with simple spin-wave inputs without opening a full notebook or code workflow.