My work aims to understand quantum phases of matter where strong interactions drive orders and responses that fall outside conventional weak-coupling analyses.
Themes
- Strong correlations and unconventional superconductivity in moire materials.
- Fractional Chern insulators, collective modes, and charge excitations in topological flat bands.
- Non-Fermi-liquid and bad-metal transport in frustrated and magneto-elastic systems.
- Optical and electromagnetic response in interacting moire materials, including low-energy sum rules.
- Numerical techniques for correlated electron systems, especially quantum Monte Carlo.
I am also interested in quantum spin liquids, disordered systems, and broader applications of statistical and density-functional ideas to complex collective behavior.