Research
We're climbing the wonderful peaks of theoretical condensed matter physics
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Theory of condensed matter includes some of the most challenging and most fascinating questions in physics.
Surprising phenomena can emerge on macroscopic scales that have no parallel to microscopic properties. Superconductivity is one such example.
Explaining the mechanism of high-temperature cuprate superconductivity remains at the intellectual frontiers of condensed matter physics.
A key part of my research aims to study theoretical models of correlated electron systems with advanced numerical techniques to construct a theory of the correlated superconductivity emerging from the proximity to a Mott insulator, an insulating state driven by strong Coulomb repulsion.
Many body quantum physics, statistical mechanics, and computational physics are at the heart of our research.
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Publications