Reserach Interests

Broadly, my research focuses on quantum transport in quantum materials, with particular emphasis on nonlinear electrical and thermoelectric phenomena governed by the geometry of Bloch wavefunctions. I investigate how band-geometric quantities—such as Berry curvature and the quantum metric—give rise to intrinsic transport responses beyond conventional mechanisms, alongside extrinsic effects driven by asymmetric scattering.

My current work combines semiclassical and quantum kinetic approaches to develop a unified understanding of nonlinear charge and heat transport, particularly in low-dimensional systems such as graphene multilayers and in bipartite antiferromagnets. In addition, I am interested in extending these ideas to optical and bosonic transport phenomena, and in exploring the broader implications of band geometry in correlated and superconducting systems.