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Quantum-Coherent Light-Electron Interaction in a Scanning Electron Microscope

Roy Shiloh, Tomáš Chlouba, Peter Hommelhoff

2022Physical Review Letters61 citationsDOIOpen Access PDF

Abstract

The last two decades experimentally affirmed the quantum nature of free electron wave packets by the rapid development of transmission electron microscopes into ultrafast, quantum-coherent systems. So far, all experiments were restricted to the bounds of transmission electron microscopes enabling one or two photon-electron interaction sites. We show the quantum coherent coupling between electrons and light in a scanning electron microscope, at unprecedentedly low, subrelativistic energies down to 10.4 keV. These microscopes not only afford the yet-unexplored energies from ∼0.5 to 30 keV providing the optimum electron-light coupling efficiency, but also offer spacious and easily configurable experimental chambers for extended, cascaded optical set ups, potentially boasting thousands of photon-electron interaction sites. Our results make possible experiments in electron wave packet shaping, quantum computing, and spectral imaging with low-energy electrons.

Topics & Concepts

ElectronPhysicsPhotonScanning transmission electron microscopyAtomic physicsMicroscopeElectron microscopeQuantumOpticsWave packetReflection high-energy electron diffractionElectron diffractionQuantum mechanicsDiffractionAdvanced Electron Microscopy Techniques and ApplicationsAdvanced Fluorescence Microscopy TechniquesElectron and X-Ray Spectroscopy Techniques