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Parametric study of dielectric loaded surface plasmon polariton add-drop filters for hybrid silicon/plasmonic optical circuitry

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dc.contributor.author Dereux, A en
dc.contributor.author Hassan, K en
dc.contributor.author Weeber, J-C en
dc.contributor.author Djellali, N en
dc.contributor.author Bozhevolnyi, SI en
dc.contributor.author Tsilipakos, O en
dc.contributor.author Pitilakis, A en
dc.contributor.author Kriezis, E en
dc.contributor.author Papaioannou, S en
dc.contributor.author Vyrsokinos, K en
dc.contributor.author Pleros, N en
dc.contributor.author Tekin, T en
dc.contributor.author Baus, M en
dc.contributor.author Kalavrouziotis, D en
dc.contributor.author Giannoulis, G en
dc.contributor.author Avramopoulos, H en
dc.date.accessioned 2014-03-01T02:53:25Z
dc.date.available 2014-03-01T02:53:25Z
dc.date.issued 2011 en
dc.identifier.issn 0277786X en
dc.identifier.uri http://hdl.handle.net/123456789/36303
dc.subject Optical Interconnects en
dc.subject Silicon Photonics en
dc.subject Surface plasmon en
dc.subject Waveguides en
dc.subject.other Add-drop filters en
dc.subject.other Dielectric loadings en
dc.subject.other Hybrid silicon en
dc.subject.other Hybrid technology en
dc.subject.other Optical signals en
dc.subject.other Parametric study en
dc.subject.other Plasmonic en
dc.subject.other Ring resonator en
dc.subject.other Silicon Photonics en
dc.subject.other Surface plasmon en
dc.subject.other Surface plasmon polaritons en
dc.subject.other Surface plasmon waveguide en
dc.subject.other Surface plasmons en
dc.subject.other Surface plasmons polaritons en
dc.subject.other Thermooptical switch en
dc.subject.other Thin metals en
dc.subject.other Drops en
dc.subject.other Electric current measurement en
dc.subject.other Electric switches en
dc.subject.other Electromagnetic waves en
dc.subject.other Heating en
dc.subject.other Integrated optics en
dc.subject.other Merging en
dc.subject.other Nanophotonics en
dc.subject.other Optical data storage en
dc.subject.other Optical interconnects en
dc.subject.other Optical signal processing en
dc.subject.other Parametric devices en
dc.subject.other Phonons en
dc.subject.other Photonic devices en
dc.subject.other Photonics en
dc.subject.other Photons en
dc.subject.other Plasmons en
dc.subject.other Quantum theory en
dc.subject.other Surface plasmon resonance en
dc.subject.other Waveguides en
dc.subject.other Optical switches en
dc.title Parametric study of dielectric loaded surface plasmon polariton add-drop filters for hybrid silicon/plasmonic optical circuitry en
heal.type conferenceItem en
heal.identifier.primary 10.1117/12.873165 en
heal.identifier.secondary http://dx.doi.org/10.1117/12.873165 en
heal.identifier.secondary 794513 en
heal.publicationDate 2011 en
heal.abstract Surface plasmons polaritons are electromagnetic waves propagating along the surface of a conductor. Surface plasmons photonics is a promising candidate to satisfy the constraints of miniaturization of optical interconnects. This contribution reviews an experimental parametric study of dielectric loaded surface plasmon waveguides ring resonators and add-drop filters within the perspective of the recently suggested hybrid technology merging plasmonic and silicon photonics on a single board (European FP7 project PLATON ""Merging Plasmonic and Silicon Photonics Technology towards Tb/s routing in optical interconnects""). Conclusions relevant for dielectric loaded surface plasmon switches to be integrated in silicon photonic circuitry will be drawn. They rely on the opportunity offered by plasmonic circuitry to carry optical signals and electric currents through the same thin metal circuitry. The heating of the dielectric loading by the electric current enables to design low foot-print thermo-optical switches driving the optical signal flow. © 2011 SPIE. en
heal.journalName Proceedings of SPIE - The International Society for Optical Engineering en
dc.identifier.doi 10.1117/12.873165 en
dc.identifier.volume 7945 en


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