Quantum metric nematicity produces incident-polarization-dependent Kerr-like polarization rotation in time-reversal symmetric nonmagnetic systems.
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4 Pith papers cite this work. Polarity classification is still indexing.
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Coupling trilayer TI film with z-oriented d-wave altermagnet gaps helical edges while preserving two Weyl points, yielding 2D higher-order Weyl semimetals with corner states.
Post-quench dynamics of the quantum geometric tensor in 1D periodic systems are governed by initial-state geometric quantities and post-quench band properties such as Berry connection and group velocities, providing a probe for nonequilibrium phenomena.
Frequency-domain Berry curvature arising from dielectric dispersion deflects photon trajectories in time refraction of magnetoplasmon-polaritons.
citing papers explorer
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Quantum-metric-nematicity induced Kerr-like polarization rotation without time-reversal symmetry breaking
Quantum metric nematicity produces incident-polarization-dependent Kerr-like polarization rotation in time-reversal symmetric nonmagnetic systems.
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Two-dimensional higher-order Weyl semimetals
Coupling trilayer TI film with z-oriented d-wave altermagnet gaps helical edges while preserving two Weyl points, yielding 2D higher-order Weyl semimetals with corner states.
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Evolution of quantum geometric tensor of 1D periodic systems after a quench
Post-quench dynamics of the quantum geometric tensor in 1D periodic systems are governed by initial-state geometric quantities and post-quench band properties such as Berry connection and group velocities, providing a probe for nonequilibrium phenomena.
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Frequency Domain Berry Curvature Effect on Time Refraction
Frequency-domain Berry curvature arising from dielectric dispersion deflects photon trajectories in time refraction of magnetoplasmon-polaritons.