Leading research in topological phases of matter, high-temperature superconductivity, and out-of-equilibrium quantum systems at theoretical physics department, University of Oxford.
Exploring Weyl semimetals, non-Abelian statistics, and fractionalization in topological insulators to construct a foundation for topological quantum computing.
Formulating pairing mechanisms for cuprate, iron-based, and heavy fermion systems utilizing quantum field theoretic approaches.
Designing quantum error correcting codes, topological stabilizer codes, and investigating properties of entanglement entropy.
Investigating thermalization, many-body localization, and out-of-equilibrium dynamics employing Tensor Network algorithms.