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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Periodic driving of a potential barrier in a 1D quantum conductor enhances the Seebeck coefficient by up to 200% at low temperatures and high frequencies relative to the static case.
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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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Enhanced thermoelectric effects in a driven one-dimensional system
Periodic driving of a potential barrier in a 1D quantum conductor enhances the Seebeck coefficient by up to 200% at low temperatures and high frequencies relative to the static case.