Analysis of Hybrid Dielectric Plasmonic Waveguides

Future ultracompact photonic integrated circuits (PICs) will rely on high-index-contrast dielectric materials, which permit a strong confinement of the optical field in the diffraction limit as well as low propagation losses. This is the case of PICs implemented on a silicon-on-insulator (SOI) platf...

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Published in	IEEE journal of selected topics in quantum electronics Vol. 14; no. 6; pp. 1496 - 1501
Main Authors	Salvador, R., Martinez, A., Garcia-Meca, C., Ortuno, R., Marti, J.
Format	Journal Article
Language	English
Published	New York IEEE 01.11.2008 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Circuits Confinement Dielectric materials Dielectric waveguides Dielectrics Diffraction Integrated optics Nonlinear optics Optical diffraction Optical ring resonators Optical sensors Optical waveguides Photonic integrated circuits photonic integrated circuits (PICs) Photonics Plasmonics Plasmons Platforms Propagation losses Waveguides optical waveguides photonic integrated circuits (PICs) plasmons Dielectric waveguides
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Abstract	Future ultracompact photonic integrated circuits (PICs) will rely on high-index-contrast dielectric materials, which permit a strong confinement of the optical field in the diffraction limit as well as low propagation losses. This is the case of PICs implemented on a silicon-on-insulator (SOI) platform. To achieve confinement beyond the diffraction limit, plasmonic waveguides (based on metal-dielectric interfaces) have been recently proposed. This new kind of waveguide provides a strong enhancement of the field in the metal-dielectric interface, which is of paramount importance for nonlinear functionalities or sensing. Plasmonic waveguides can also be built on SOI wafers. Thus, it can be reasonably thought that high index contrast as well as plasmonic waveguides can coexist in future ultradense PICs. In this paper, a theoretical and numerical study on the performance of several dielectric and plasmonic waveguides is presented. Thanks to their plasmon-coupled supported modes, ultracompact devices as hybrid ring resonators can be devised and integrated with silicon photonic circuits.
AbstractList	Future ultracompact photonic integrated circuits (PICs) will rely on high-index-contrast dielectric materials, which permit a strong confinement of the optical field in the diffraction limit as well as low propagation losses. This is the case of PICs implemented on a silicon-on-insulator (SOI) platform. To achieve confinement beyond the diffraction limit, plasmonic waveguides (based on metal-dielectric interfaces) have been recently proposed. This new kind of waveguide provides a strong enhancement of the field in the metal-dielectric interface, which is of paramount importance for nonlinear functionalities or sensing. Plasmonic waveguides can also be built on SOI wafers. Thus, it can be reasonably thought that high index contrast as well as plasmonic waveguides can coexist in future ultradense PICs. In this paper, a theoretical and numerical study on the performance of several dielectric and plasmonic waveguides is presented. Thanks to their plasmon-coupled supported modes, ultracompact devices as hybrid ring resonators can be devised and integrated with silicon photonic circuits. Plasmonic waveguides can also be built on SOI wafers. [...] it can be reasonably thought that high index contrast as well as plasmonic waveguides can coexist in future ultradense PICs.
Author	Martinez, A. Salvador, R. Garcia-Meca, C. Marti, J. Ortuno, R.
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Cites_doi	10.1364/OPEX.12.005481 10.1364/OE.15.000924 10.1364/OPEX.13.009652 10.1364/OPEX.13.006645 10.1364/OL.31.002701 10.1103/PhysRevB.61.10484 10.1007/BFb0048317 10.1364/JOSAA.21.002442 10.1063/1.97450 10.1103/PhysRevB.63.125417 10.1364/OL.29.001209 10.1063/1.1871360 10.1103/PhysRevB.6.4370 10.1103/PhysRevB.73.035407 10.1103/PhysRevB.69.155427 10.1038/nature04594 10.1016/S1369-7021(06)71572-3 10.1364/OL.30.003359
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SubjectTerms	Circuits Confinement Dielectric materials Dielectric waveguides Dielectrics Diffraction Integrated optics Nonlinear optics Optical diffraction Optical ring resonators Optical sensors Optical waveguides Photonic integrated circuits photonic integrated circuits (PICs) Photonics Plasmonics Plasmons Platforms Propagation losses Waveguides
Title	Analysis of Hybrid Dielectric Plasmonic Waveguides
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