A symmetry-based stacking strategy with layer-flip realizes odd-parity altermagnetism from nonrelativistic orbital orders, hosting quantum spin Hall phases with helical edge states.
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5 Pith papers cite this work. Polarity classification is still indexing.
representative citing papers
Triplet superconductors exhibit non-relativistic momentum-dependent spin splitting from the pairing order parameter, enabling an Edelstein effect and electric-field-driven spin pumping without relativistic spin-orbit coupling.
A 4 nm Gd interlayer in Ti/Co systems produces fivefold higher spin-orbit torque efficiency than reference bilayers, with trilayer torque efficiency exceeding 1 due to enhanced orbital-to-spin conversion at the rare-earth interface.
In Py/Pt bilayers a magnon-related spin-flip unidirectional magnetoresistance appears in second-harmonic Hall data and must be included to obtain reliable spin-orbit torque values over broad field ranges.
Inductive VNA measurements detect inverse SOT from PMA [Co/Ni] and [Co/Pt] multilayers driving IMA CoFeB, yielding SOT strengths comparable to Pt and correlated with CoFeB thickness.
citing papers explorer
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Non-Relativistic Spin-Orbit Interaction in Triplet Superconductors: Edelstein Effect and Spin Pumping by Electric Fields
Triplet superconductors exhibit non-relativistic momentum-dependent spin splitting from the pairing order parameter, enabling an Edelstein effect and electric-field-driven spin pumping without relativistic spin-orbit coupling.
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Orbital Hall effect-driven spin-orbit torque enhancement in Ti-based systems via rare-earth interface engineering
A 4 nm Gd interlayer in Ti/Co systems produces fivefold higher spin-orbit torque efficiency than reference bilayers, with trilayer torque efficiency exceeding 1 due to enhanced orbital-to-spin conversion at the rare-earth interface.
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Impact of current-induced magnons on spin-orbit torque analysis
In Py/Pt bilayers a magnon-related spin-flip unidirectional magnetoresistance appears in second-harmonic Hall data and must be included to obtain reliable spin-orbit torque values over broad field ranges.
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Inductive detection of inverse spin-orbit torques in magnetic heterostructures
Inductive VNA measurements detect inverse SOT from PMA [Co/Ni] and [Co/Pt] multilayers driving IMA CoFeB, yielding SOT strengths comparable to Pt and correlated with CoFeB thickness.