In noncentrosymmetric materials such as ferroelectric GeTe, charge current generation is dominated by the Rashba-Edelstein effect rather than spin or orbital Hall effects.
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Ta₂CS₂ MXene hosts valley-orbital and orbital-layer couplings that, together with spin-orbit interaction and electric polarization, yield valley-dependent orbital moments and layer-dependent spin splitting, which appear in orbital and spin Hall effects.
citing papers explorer
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Spin and orbital-to-charge conversion in noncentrosymmetric materials: Hall versus Rashba-Edelstein effects
In noncentrosymmetric materials such as ferroelectric GeTe, charge current generation is dominated by the Rashba-Edelstein effect rather than spin or orbital Hall effects.
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Interplay of Valley, Orbital, Spin, and Layer Degrees of Freedom in Ta$_2$CS$_2$ MXene
Ta₂CS₂ MXene hosts valley-orbital and orbital-layer couplings that, together with spin-orbit interaction and electric polarization, yield valley-dependent orbital moments and layer-dependent spin splitting, which appear in orbital and spin Hall effects.