Interacting Stochastic Topology and Mott Transition from Light Response

• URL: http://arxiv.org/abs/2002.01742v5
• Date: Sat, 5 Dec 2020 11:54:16 GMT
• Title: Interacting Stochastic Topology and Mott Transition from Light Response
• Authors: Philipp W. Klein, Adolfo G. Grushin, and Karyn Le Hur
• Abstract summary: We develop a description of the topological properties in an interacting Chern insulator. We make predictions for circular dichroism of light related to the quantum Hall conductivity on the lattice.
• Score: 0.0
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: We develop a stochastic description of the topological properties in an interacting Chern insulator. We confirm the Mott transition's first-order nature in the interacting Haldane model on the honeycomb geometry, from a mean-field variational approach, supported by density matrix renormalization group results and Ginzburg-Landau arguments. From the Bloch sphere, we make predictions for circular dichroism of light related to the quantum Hall conductivity on the lattice and in the presence of interactions. This analysis shows that the topological number can be measured from the light response at the Dirac points. Electron-electron interactions can also produce a substantial number of particle-hole pairs above the band gap, which leads us to propose a "stochastic Chern number" as an interacting measure of the topology. The stochastic Chern number can describe disordered situations with a fluctuating staggered potential and we build an analogy between interaction-induced particle-hole pairs and temperature effects. Our stochastic approach is physically intuitive, easy to implement and leads the way to further studies of interaction effects.

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