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Quantum Geometry Induced Third Order Nonlinear Transport Responses

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arxiv 2310.19092 v3 pith:ONWH4JQ5 submitted 2023-10-29 cond-mat.mes-hall cond-mat.mtrl-sci

Quantum Geometry Induced Third Order Nonlinear Transport Responses

classification cond-mat.mes-hall cond-mat.mtrl-sci
keywords transportnonlinearcontributionsresponsessystemsthird-orderbandcharge
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Nonlinear transport phenomena offer an exciting probe into the band geometry and symmetry properties of a system. While most studies on nonlinear transport have looked at second-order nonreciprocal responses in noncentrosymmetric systems, the reciprocal third-order effects dominant in centrosymmetric systems remain largely uncharted. Here, we uncover two significant contributions to third-order charge conductivity: one affecting longitudinal resistance and another impacting the Hall effect. We demonstrate that these previously unexplored contributions arise in time-reversal symmetry-broken systems from band geometric quantities such as the Berry curvature and the symplectic connection. We prescribe a detailed symmetry dictionary to facilitate the discovery of these fundamental transport coefficients. Additionally, we unify our quantum kinetic results with the semiclassical wave-packet formalism to unveil all contributions to third-order charge transport. We illustrate our results in antiferromagnetic monolayer SrMnBi$_2$. Our comprehensive study significantly advances the fundamental understanding of reciprocal nonlinear responses.

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  1. Second-order dc conductivity in the velocity-gauge Keldysh formalism: gauge-invariant decomposition into nonlinear Drude, Berry-curvature-dipole, and quantum-metric responses

    cond-mat.mes-hall 2026-06 unverdicted novelty 6.0

    Derives gauge-invariant decomposition of second-order dc nonlinear conductivity into nonlinear Drude (τ²), Berry-curvature-dipole (τ), and intra/interband quantum-metric-dipole (τ⁰) responses in velocity-gauge Keldysh...