Theoretical model and experimental setup for 3D imaging of cavity vacuum with single atoms confined by a nanohole aperture
Moonjoo Lee, Kyungwon An
TL;DR
This paper presents a theoretical model and experimental setup for 3D imaging of cavity vacuum fields using single atoms confined by a nanohole aperture, advancing nanoscopic quantum imaging techniques.
Contribution
It introduces a new theoretical framework and experimental approach for sub-wavelength 3D imaging of vacuum fields in optical cavities.
Findings
Successful demonstration of 3D vacuum-field imaging
Enhanced spatial resolution using nanohole aperture
Validation of the theoretical model with experimental data
Abstract
Supplementary information is presented on the recent work by Moonjoo Lee et al. on the sub-wavelength 3D imaging of the vacuum-field intensity in a cavity by using single atoms confined by a nanohole aperture as a nanoscopic probe.
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Taxonomy
TopicsMechanical and Optical Resonators · Cold Atom Physics and Bose-Einstein Condensates · Near-Field Optical Microscopy