Fibre-optic metadevice for all-optical signal modulation based on coherent absorption

Recently, coherent control of the optical response of thin films of matter in standing waves has attracted considerable attention, ranging from applications in excitation-selective spectroscopy and nonlinear optics to demonstrations of all-optical image processing. Here we show that integration of m...

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Veröffentlicht in:	arXiv.org 2017-09
Hauptverfasser:	Xomalis, Angelos, Demirtzioglou, Iosif, Plum, Eric, Jung, Yongmin, Nalla, Venkatram, Lacava, Cosimo, MacDonald, Kevin F, Petropoulos, Periklis, Richardson, David, Zheludev, Nikolay I
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Schlagworte:	Absorption Excitation spectra Fiber optics Image processing Metamaterials Nonlinear optics Optical communication Optical fibers Optical switching Physics - Optics Quantum phenomena Quantum theory Standing waves Switching theory Thin films
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creator	Xomalis, Angelos Demirtzioglou, Iosif Plum, Eric Jung, Yongmin Nalla, Venkatram Lacava, Cosimo MacDonald, Kevin F Petropoulos, Periklis Richardson, David Zheludev, Nikolay I
description	Recently, coherent control of the optical response of thin films of matter in standing waves has attracted considerable attention, ranging from applications in excitation-selective spectroscopy and nonlinear optics to demonstrations of all-optical image processing. Here we show that integration of metamaterial and optical fibre technologies allows the use of coherently controlled absorption in a fully fiberized and packaged switching metadevice. With this metadevice, that controls light with light in a nanoscale plasmonic metamaterial film on an optical fibre tip, we provide proof-of-principle demonstrations of logical functions XOR, NOT and AND that are performed within a coherent fully fiberized network at wavelengths between 1530 nm and 1565 nm. The metadevice performance has been tested with optical signals equivalent to a bitrate of up to 40 Gbit/s and sub-milliwatt power levels. Since coherent absorption can operate at the single photon level and also with 100 THz bandwidth, we argue that the demonstrated all-optical switch concept has potential applications in coherent and quantum information networks.
doi_str_mv	10.48550/arxiv.1709.05357
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subjects	Absorption Excitation spectra Fiber optics Image processing Metamaterials Nonlinear optics Optical communication Optical fibers Optical switching Physics - Optics Quantum phenomena Quantum theory Standing waves Switching theory Thin films
title	Fibre-optic metadevice for all-optical signal modulation based on coherent absorption
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