Symmetry analysis identifies 39 magnetic point groups supporting intrinsic nonlinear pure spin Hall effect with predictions for significant currents in Kramers-Weyl metals at room temperature.
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Electric-field shifting of the d-level energy switches the magnetic ground state of an itinerant-electron dimer among ferromagnetic, antiferromagnetic, and noncollinear configurations.
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Symmetry-driven Intrinsic Nonlinear Pure Spin Hall Effect
Symmetry analysis identifies 39 magnetic point groups supporting intrinsic nonlinear pure spin Hall effect with predictions for significant currents in Kramers-Weyl metals at room temperature.
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Control of localized states of itinerant electrons and their magnetic interactions
Electric-field shifting of the d-level energy switches the magnetic ground state of an itinerant-electron dimer among ferromagnetic, antiferromagnetic, and noncollinear configurations.