Issue 17, 2022

Tunable directional emission from electrically driven nano-strip metal–insulator–metal tunnel junctions

Abstract

Electrically driven nanoantennas for on-chip generation and manipulation of light have attracted significant attention in recent times. Metal–insulator–metal (MIM) tunnel junctions have been extensively used to electrically excite surface plasmons and photons via inelastic electron tunneling. However, the dynamic switching of light from MIM junctions into spatially separate channels has not been shown. Here, we numerically demonstrate switchable, highly directional light emission from electrically driven nano-strip Ag–SiO2–Ag tunnel junctions. The top electrode of our Ag–SiO2–Ag stack is divided into 16 nano-strips, with two of the tunnel junctions at the centre (SL and SR) acting as sources. Using full-wave electromagnetic simulations, we show that when SL is excited, the emission is highly directional with an angle of emission of −30° and an angular spread of ∼11°. When the excitation is switched to SR, the emission is redirected to an angle of 30° with an identical angular spread. A directivity of 29.4 is achieved in the forward direction, with a forward-to-backward ratio of 12. We also demonstrate wavelength-selective directional switching by changing the width, and thereby the resonance wavelength, of the sources. The emission can be tuned by varying the periodicity of the structure, paving the way for electrically driven, reconfigurable light sources.

Graphical abstract: Tunable directional emission from electrically driven nano-strip metal–insulator–metal tunnel junctions

Supplementary files

Article information

Article type
Paper
Submitted
10 Mar 2022
Accepted
30 Jun 2022
First published
08 Aug 2022
This article is Open Access
Creative Commons BY license

Nanoscale Adv., 2022,4, 3609-3616

Tunable directional emission from electrically driven nano-strip metal–insulator–metal tunnel junctions

S. Kishen, J. Tapar and N. K. Emani, Nanoscale Adv., 2022, 4, 3609 DOI: 10.1039/D2NA00149G

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