Extending the wave-packet ansatz for Bloch electrons to include interband contributions and applying the time-dependent variational principle yields leading-order nonadiabatic corrections to the Lagrangian, including an energy-gap-renormalized quantum metric that recasts dynamics as geodesic motion.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
years
2025 2verdicts
UNVERDICTED 2representative citing papers
Frequency-domain Berry curvature arising from dielectric dispersion deflects photon trajectories in time refraction of magnetoplasmon-polaritons.
citing papers explorer
-
Nonadiabatic Wave-Packet Dynamics: Nonadiabatic Metric, Quantum Geometry, and Gravitational Analogy
Extending the wave-packet ansatz for Bloch electrons to include interband contributions and applying the time-dependent variational principle yields leading-order nonadiabatic corrections to the Lagrangian, including an energy-gap-renormalized quantum metric that recasts dynamics as geodesic motion.
-
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.