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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Sawtooth surface acoustic waves induce ratchet motion in pinned magnetic skyrmions, enabling net orthogonal displacement as shown via micromagnetic simulations and analytical models.
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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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Ratchet motion of magnetic skyrmions driven by surface acoustic sawtooth waves
Sawtooth surface acoustic waves induce ratchet motion in pinned magnetic skyrmions, enabling net orthogonal displacement as shown via micromagnetic simulations and analytical models.