A 3D Floquet multi-channel scattering theory for time-harmonic potentials recovers PINEM-like sideband probabilities weighted by the electron wave packet's transverse profile and shows modulation strength depends on transverse focusing.
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A theoretical framework expresses the electron-photon scattered state via the luminescence spectrum and uses subsystem purity plus an EPR-type criterion to distinguish wave-like, particle-like, and classical regimes of spatial entanglement in coherent cathodoluminescence.
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Modulation of electron wave packets by scattering on time-harmonic potentials
A 3D Floquet multi-channel scattering theory for time-harmonic potentials recovers PINEM-like sideband probabilities weighted by the electron wave packet's transverse profile and shows modulation strength depends on transverse focusing.
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Electron-Photon Spatial Entanglement in Coherent Cathodoluminescence
A theoretical framework expresses the electron-photon scattered state via the luminescence spectrum and uses subsystem purity plus an EPR-type criterion to distinguish wave-like, particle-like, and classical regimes of spatial entanglement in coherent cathodoluminescence.