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Dominant role of two-photon vertex in nonlinear response in two-dimensional Dirac systems

Habib Rostami, E. Cappelluti

2021npj 2D Materials and Applications13 citationsDOIOpen Access PDF

Abstract

Abstract We show that the standard concepts of nonlinear response to electromagnetic fields break down in two-dimensional Dirac systems, like graphene, in the quantum regime close to the Dirac point. We present a compelling many-body theory for nonlinear transport focusing on disorder scattering as a benchmark example. We show that, although the diamagnetic two-photon vertex is absent at the non-interacting level, disorder effects give rise to a self-generation of such two-photon vertex surviving even in the clean limit. We predict that the two-photon vertex self-generation is present only in two dimensions. The impact of such a striking scenario on the nonlinear quantum transport is discussed, predicting a huge enhancement of third-order dc conductivity comparing to the common models.

Topics & Concepts

PhysicsNonlinear systemVertex (graph theory)PhotonGrapheneQuantumDirac (video compression format)Quantum mechanicsStatistical physicsMathematicsGraphDiscrete mathematicsNeutrinoTopological Materials and PhenomenaGraphene research and applicationsQuantum and electron transport phenomena
Dominant role of two-photon vertex in nonlinear response in two-dimensional Dirac systems | Litcius