First-principles calculations predict that chiral lattice vibrations induce orbital accumulation in metals, controlled mainly by orbital character, near-degeneracies, and electron-phonon coupling.
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Phonon angular momentum in chiral insulators enables a spin Seebeck effect with negative differential behavior and rectification in NM-CI interfaces.
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First-principles prediction of chiral-phonon-induced orbital accumulation
First-principles calculations predict that chiral lattice vibrations induce orbital accumulation in metals, controlled mainly by orbital character, near-degeneracies, and electron-phonon coupling.
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Spin Seebeck Effect in Normal-Metal--Chiral-Insulator Heterostructure
Phonon angular momentum in chiral insulators enables a spin Seebeck effect with negative differential behavior and rectification in NM-CI interfaces.