A multipolar k·p theory for C3v crystals reveals band-dependent total-angular-momentum textures with vorticities |W_n|=1,2,5 that produce nonmonotonic current-induced spin polarization responses.
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Electronic Lévy glasses convert low charge current into large spin Hall current with 30% spin Hall angle in the superdiffusive regime versus 5% in the diffusive regime.
Symmetry analysis and Furusaki-Tsukada calculations show that tuning exchange-field directions, Rashba SOC, and d-wave lobe orientations in Josephson junctions enhances nonreciprocity in the current-phase relation by more than 40%, with asymmetric Andreev bound states driving the diode effect.
citing papers explorer
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Beyond spin-1/2: Multipolar spin-orbit coupling in noncentrosymmetric crystals with time-reversal symmetry
A multipolar k·p theory for C3v crystals reveals band-dependent total-angular-momentum textures with vorticities |W_n|=1,2,5 that produce nonmonotonic current-induced spin polarization responses.
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Spin Hall effect in electronic L\'evy glasses: Enhanced spin current generation in the superdiffusive regime
Electronic Lévy glasses convert low charge current into large spin Hall current with 30% spin Hall angle in the superdiffusive regime versus 5% in the diffusive regime.
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Anomalous and diode Josephson effect in junctions with inhomogeneous ferromagnetic barrier and interfacial Rashba spin-orbit coupling
Symmetry analysis and Furusaki-Tsukada calculations show that tuning exchange-field directions, Rashba SOC, and d-wave lobe orientations in Josephson junctions enhances nonreciprocity in the current-phase relation by more than 40%, with asymmetric Andreev bound states driving the diode effect.