Orbital torque and orbital pumping are reciprocal in NM/FM heterostructures, with transmission coefficients satisfying Onsager symmetry relations as measured by scattering parameters on Ru/Ni, Ru/Pt/CoFeB, and Co/Cu/SiO2 devices.
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Photon momentum enables symmetry breaking and bulk nonlinear photocurrents in centrosymmetric PdTe, with angle and thickness dependence confirming access to interband quantum geometry.
d1T-phase monolayer MoS2 is predicted to be a ferroelectric higher-order topological insulator whose orbital Hall conductivity sign is switched by polarization direction.
citing papers explorer
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Reciprocity of Charge-Orbital-Spin Transport in Normal-Metal/Ferromagnet Heterostructures
Orbital torque and orbital pumping are reciprocal in NM/FM heterostructures, with transmission coefficients satisfying Onsager symmetry relations as measured by scattering parameters on Ru/Ni, Ru/Pt/CoFeB, and Co/Cu/SiO2 devices.
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Photon Momentum Enabled Symmetry Breaking and Nonlinear Photocurrents in the Centrosymmetric Dirac Semimetal PdTe
Photon momentum enables symmetry breaking and bulk nonlinear photocurrents in centrosymmetric PdTe, with angle and thickness dependence confirming access to interband quantum geometry.
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Ferroelectric polarization controlled orbital Hall conductivity in a higher-order topological insulator: \textit{d1T}-phase monolayer MoS$_2$
d1T-phase monolayer MoS2 is predicted to be a ferroelectric higher-order topological insulator whose orbital Hall conductivity sign is switched by polarization direction.