Real-time TDDFT simulations demonstrate that the gauge-field term in the SOC Hamiltonian governs symmetry breaking and produces dynamical spin states in systems possessing mirror, glide, or screw-rotational symmetry under external fields.
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Ab initio rt-TDDFT simulations show current-driven symmetry lowering in chiral wires generates spin and orbital polarization as an intrinsic effect.
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Gauge-Field-Mediated Symmetry Breaking of Matters Under Electromagnetic Fields and Its Impact on Spin Dynamics
Real-time TDDFT simulations demonstrate that the gauge-field term in the SOC Hamiltonian governs symmetry breaking and produces dynamical spin states in systems possessing mirror, glide, or screw-rotational symmetry under external fields.
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Current-Driven Symmetry Breaking and Spin-Orbit Polarization in Chiral Wires
Ab initio rt-TDDFT simulations show current-driven symmetry lowering in chiral wires generates spin and orbital polarization as an intrinsic effect.