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


ABSTRACT: Recently, coherent control of the optical response of thin films in standing waves has attracted considerable attention, ranging from applications in excitation-selective spectroscopy and nonlinear optics to 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, which 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 fibre network at wavelengths between 1530 and 1565?nm. The metadevice has been tested at up to 40?gigabits per second and sub-milliwatt power levels. Since coherent absorption can operate at the single-photon level and with 100?THz bandwidth, we argue that the demonstrated all-optical switch concept has potential applications in coherent and quantum information networks.

SUBMITTER: Xomalis A 

PROVIDER: S-EPMC5766546 | biostudies-literature | 2018 Jan

REPOSITORIES: biostudies-literature

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

Xomalis Angelos A   Demirtzioglou Iosif I   Plum Eric E   Jung Yongmin Y   Nalla Venkatram V   Lacava Cosimo C   MacDonald Kevin F KF   Petropoulos Periklis P   Richardson David J DJ   Zheludev Nikolay I NI  

Nature communications 20180112 1


Recently, coherent control of the optical response of thin films in standing waves has attracted considerable attention, ranging from applications in excitation-selective spectroscopy and nonlinear optics to 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, which controls light with light in a nanoscale plasmoni  ...[more]

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