Juan Arocas scite author profile

We demonstrate the realization of an electrically-driven integrated source of surface plasmon polaritons. Light-emitting individual single-walled carbon nanotube field effect transistors were fabricated in a plasmonic-ready platform. The devices were operated at ambient condition to act as an electroluminescence source localized near the contacting gold electrodes. We show that photon emission from the semiconducting channel can couple to propagating surface plasmons developing in the electrical terminals. Momentum-space spectroscopy suggests that excited plasmon modes are bound to the metal-glass interface. Our results underline the high degree of compatibility between state-of-the art nano-optoelectronic devices and plasmonic architectures.

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Electrical excitation of waveguided surface plasmons by a light-emitting tunneling optical gap antenna

Cazier¹,

Buret²,

Uskov³

et al. 2016

Opt. Express

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We introduce a new type of electroplasmonic interfacing component to electrically generate surface plasmons. Specifically, an electron-fed optical tunneling gap antenna is integrated on a plasmonic waveguiding platform. When electrical charges are injected in the tunneling barrier of the gap antenna, a broad-band radiation is emitted from the feed area by a process identified as a thermal emission of hot electrons. Part of the emitted photons couples to surface plasmon modes sustained by the waveguide geometry. The transducing optical antenna is thus acting as a localized electrical source of surface plasmon polaritons. The integration of electrically-activated optical antennas into a plasmonic architecture mitigates the need for complex coupling scheme and proposes a solution for realizing nanoscale units at the interface between nano-electronics and photonics.

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Octave Spanning Supercontinuum in Titanium Dioxide Waveguides

et al. 2018

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Juan Arocas

Electrical Excitation of Surface Plasmons by an Individual Carbon Nanotube Transistor

Electrical excitation of waveguided surface plasmons by a light-emitting tunneling optical gap antenna

Octave Spanning Supercontinuum in Titanium Dioxide Waveguides

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