Phonon-mediated spin-spin interactions in insulators produce temperature-dependent anisotropic couplings with oscillatory spatial decay, potentially accounting for weak ferromagnetism in chiral compounds when inversion symmetry is broken.
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Coupling a chiral molecule to a reservoir generates an effective spin splitting that locks spin to chirality and violates Onsager reciprocity, supplying a mechanism for the chirality-induced spin selectivity effect.
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Phonon mediated spin-spin interactions
Phonon-mediated spin-spin interactions in insulators produce temperature-dependent anisotropic couplings with oscillatory spatial decay, potentially accounting for weak ferromagnetism in chiral compounds when inversion symmetry is broken.
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Breaking of Time-Reversal Symmetry and Onsager Reciprocity in Chiral Molecule Interfacd with an Environment
Coupling a chiral molecule to a reservoir generates an effective spin splitting that locks spin to chirality and violates Onsager reciprocity, supplying a mechanism for the chirality-induced spin selectivity effect.