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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cond-mat.mes-hall 2years
2025 2verdicts
UNVERDICTED 2representative citing papers
Relativistic SOC corrections to the magnetic moment operator create an abnormal magnetic moment, render spin-orbital decomposition ambiguous, and require a new Kubo formula for the kinetic magnetoelectric effect that includes noncommuting position and partial-B operators.
citing papers explorer
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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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Magnetic moment of electrons in systems with spin-orbit coupling
Relativistic SOC corrections to the magnetic moment operator create an abnormal magnetic moment, render spin-orbital decomposition ambiguous, and require a new Kubo formula for the kinetic magnetoelectric effect that includes noncommuting position and partial-B operators.