Imaging the field inside nanophotonic accelerators
Fishman T, Haeusler U, Dahan R, Yannai M, Adiv Y, Abudi TL, Shiloh R, Eyal O, Yousefi P, Eisenstein G, Hommelhoff P, Kaminer I (2023)
Publication Type: Journal article
Publication year: 2023
Journal
Book Volume: 14
Article Number: 3687
Journal Issue: 1
DOI: 10.1038/s41467-023-38857-z
Abstract
Controlling optical fields on the subwavelength scale is at the core of nanophotonics. Laser-driven nanophotonic particle accelerators promise a compact alternative to conventional radiofrequency-based accelerators. Efficient electron acceleration in nanophotonic devices critically depends on achieving nanometer control of the internal optical nearfield. However, these nearfields have so far been inaccessible due to the complexity of the devices and their geometrical constraints, hampering the design of future nanophotonic accelerators. Here we image the field distribution inside a nanophotonic accelerator, for which we developed a technique for frequency-tunable deep-subwavelength resolution of nearfields based on photon-induced nearfield electron-microscopy. Our experiments, complemented by 3D simulations, unveil surprising deviations in two leading nanophotonic accelerator designs, showing complex field distributions related to intricate 3D features in the device and its fabrication tolerances. We envision an extension of our method for full 3D field tomography, which is key for the future design of highly efficient nanophotonic devices.
Authors with CRIS profile
Roy Shiloh
Lehrstuhl für Laserphysik
Peyman Yousefi
Lehrstuhl für Laserphysik
Peter Hommelhoff
Lehrstuhl für Laserphysik
Additional Organisation(s)
Involved external institutions
Israel (IL)How to cite
APA:
Fishman, T., Haeusler, U., Dahan, R., Yannai, M., Adiv, Y., Abudi, T.L.,... Kaminer, I. (2023). Imaging the field inside nanophotonic accelerators. Nature Communications, 14(1). https://dx.doi.org/10.1038/s41467-023-38857-z
MLA:
Fishman, Tal, et al. "Imaging the field inside nanophotonic accelerators." Nature Communications 14.1 (2023).
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