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Article Dans Une Revue Beilstein Journal of Nanotechnology Année : 2018

Electromigrated electrical optical antennas for transducing electrons and photons at the nanoscale

Résumé

Background: Electrically controlled optical metal antennas are an emerging class of nanodevices enabling a bilateral transduction between electrons and photons. At the heart of the device is a tunnel junction that may either emit light upon injection of electrons or generate an electrical current when excited by a light wave. The current study explores a technological route for producing these functional units based upon the electromigration of metal constrictions. Results: We combine multiple nanofabrication steps to realize in-plane tunneling junctions made of two gold electrodes, separated by a sub-nanometer gap acting as the feedgap of an optical antenna. We electrically characterize the transport properties of the junctions in the light of the Fowler–Nordheim representation and the Simmons model for electron tunneling. We demonstrate light emission from the feedgap upon electron injection and show examples of how this nanoscale light source can be coupled to waveguiding structures. Conclusion: Electromigrated in-plane tunneling optical antennas feature interesting properties with their unique functionality enabling interfacing electrons and photons at the atomic scale and with the same device. This technology may open new routes for device-to-device communication and for interconnecting an electronic control layer to a photonic architecture.

Dates et versions

hal-03546198 , version 1 (27-01-2022)

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Arindam Dasgupta, Mickaël Buret, Nicolas Cazier, Marie-Maxime Mennemanteuil, Reinaldo Chacon, et al.. Electromigrated electrical optical antennas for transducing electrons and photons at the nanoscale. Beilstein Journal of Nanotechnology, 2018, 9, pp.1964-1976. ⟨10.3762/bjnano.9.187⟩. ⟨hal-03546198⟩
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