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Highly nonlinear chalcogenide waveguide devices for ultra-fast all-optical signal processing

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Pelusi, Mark; Luan, F; Magi, Eric; Lamont, M R E; Moss, D J; Eggleton, Benjamin J; Madden, Steve; Bulla, Douglas; Luther-Davies, Barry; Choi, Duk-Yong

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A review of the development and applications of compact highly nonlinear Chalcogenide waveguides for ultrafast all-optical signal processing is presented. We demonstrate the extreme tapering of a highly nonlinear As2S3 fiber to further increase its nonlinearity by more than an order of magnitude thereby enabling time-division demultiplexing of a 160 Gb/s signal by four-wave mixing (FWM) with significantly lower optical powers. The tight mode confinement at such small fiber diameters also...[Show more]

dc.contributor.authorPelusi, Mark
dc.contributor.authorLuan, F
dc.contributor.authorMagi, Eric
dc.contributor.authorLamont, M R E
dc.contributor.authorMoss, D J
dc.contributor.authorEggleton, Benjamin J
dc.contributor.authorMadden, Steve
dc.contributor.authorBulla, Douglas
dc.contributor.authorLuther-Davies, Barry
dc.contributor.authorChoi, Duk-Yong
dc.coverage.spatialSingapore
dc.date.accessioned2015-12-10T22:18:20Z
dc.date.createdDecember 8-11 2008
dc.identifier.urihttp://hdl.handle.net/1885/51379
dc.description.abstractA review of the development and applications of compact highly nonlinear Chalcogenide waveguides for ultrafast all-optical signal processing is presented. We demonstrate the extreme tapering of a highly nonlinear As2S3 fiber to further increase its nonlinearity by more than an order of magnitude thereby enabling time-division demultiplexing of a 160 Gb/s signal by four-wave mixing (FWM) with significantly lower optical powers. The tight mode confinement at such small fiber diameters also enhances the waveguiding dispersion to reduce the total dispersion for more broadband phase-matched FWM. We also present results on a low loss serpentine shaped rib waveguide of 22.5 cm length etched from a thin film of As2S3, that enables wavelength conversion of an 80 Gb/s signal by cross phase modulation, highlighting the potential for such high-speed signal processing to be performed in compact photonic chip circuits.
dc.publisherInstitute of Electrical and Electronics Engineers (IEEE Inc)
dc.relation.ispartofseriesIEEE Photonics Global @ Singapore 2008
dc.sourceProceedings of IEEE Photonics Global @ Singapore 2008
dc.source.urihttp://www.photonicsglobalsingapore.org/
dc.subjectKeywords: 160 Gb/s; 80 Gb/s; All-optical signal processing; Cross phase modulation; Fiber diameters; High-speed signal processing; Highly nonlinear; Low loss; Non-Linearity; Optical power; Order of magnitude; Photonic chips; Rib waveguides; Time-division demultiple
dc.titleHighly nonlinear chalcogenide waveguide devices for ultra-fast all-optical signal processing
dc.typeConference paper
local.description.notesImported from ARIES
local.description.refereedYes
dc.date.issued2008
local.identifier.absfor020504 - Photonics, Optoelectronics and Optical Communications
local.identifier.ariespublicationu9912193xPUB222
local.type.statusPublished Version
local.contributor.affiliationPelusi, Mark, University of Sydney
local.contributor.affiliationLuan, F, University of Sydney
local.contributor.affiliationMagi, Eric, University of Sydney
local.contributor.affiliationLamont, M R E, University of Sydney
local.contributor.affiliationMoss, D J, University of Sydney
local.contributor.affiliationEggleton, Benjamin J, University of Sydney
local.contributor.affiliationMadden, Steve, College of Physical and Mathematical Sciences, ANU
local.contributor.affiliationChoi, Duk-Yong, College of Physical and Mathematical Sciences, ANU
local.contributor.affiliationBulla, Douglas, College of Physical and Mathematical Sciences, ANU
local.contributor.affiliationLuther-Davies, Barry, College of Physical and Mathematical Sciences, ANU
local.description.embargo2037-12-31
local.bibliographicCitation.startpage1
local.bibliographicCitation.lastpage4
local.identifier.doi10.1109/IPGC.2008.4781459
dc.date.updated2016-02-24T12:14:51Z
local.identifier.scopusID2-s2.0-67649661936
CollectionsANU Research Publications

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