Substrate-induced periodic dipolar scattering in 2D electron gases produces singular enhancement of nonlinear conductivity to a natural scale of 1 μm/ΩV due to strict 2D kinematic constraints.
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Nonlinear thermal and thermoelectric responses are shown to encode quantum geometry and satisfy relations parallel to the Wiedemann-Franz and Mott laws in systems with broken symmetries.
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Giant nonlinear conductivity in 2D electron gas from substrate-induced dipolar scattering
Substrate-induced periodic dipolar scattering in 2D electron gases produces singular enhancement of nonlinear conductivity to a natural scale of 1 μm/ΩV due to strict 2D kinematic constraints.
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Nonlinear thermal and thermoelectric transport from quantum geometry
Nonlinear thermal and thermoelectric responses are shown to encode quantum geometry and satisfy relations parallel to the Wiedemann-Franz and Mott laws in systems with broken symmetries.