Phonon mechanical angular momentum converts to electronic degrees of freedom via a derived second-order Hamiltonian in helical systems.
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Chiral molecular interfaces produce no detectable shift in resonance field or linewidth of Co/Ni multilayers; a macrospin framework distinguishes equilibrium energy modifications from CISS-induced torques.
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Effective electron coupling to phonon mechanical angular momentum in helical systems
Phonon mechanical angular momentum converts to electronic degrees of freedom via a derived second-order Hamiltonian in helical systems.
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Chiral molecule-induced contributions to ferromagnetic resonance
Chiral molecular interfaces produce no detectable shift in resonance field or linewidth of Co/Ni multilayers; a macrospin framework distinguishes equilibrium energy modifications from CISS-induced torques.