Time-resolved THz polarimetry detects a helicity-dependent anomalous Hall conductivity in silicon that persists long after excitation and is independent of photon energy, pointing to an inverse orbital Hall effect.
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Scattering and interference dominate circular-dichroic ARPES signals in graphene and WSe2, complicating extraction of initial-state orbital angular momentum.
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Signature of inverse orbital Hall effect in silicon studied using time-resolved terahertz polarimetry
Time-resolved THz polarimetry detects a helicity-dependent anomalous Hall conductivity in silicon that persists long after excitation and is independent of photon energy, pointing to an inverse orbital Hall effect.
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Scattering makes a difference in circular dichroic angle-resolved photoemission
Scattering and interference dominate circular-dichroic ARPES signals in graphene and WSe2, complicating extraction of initial-state orbital angular momentum.