Ultracompact Photonic-Waveguide Circuits in Si-Pillar Photonic-Crystal Structures for Integrated Nanophotonic Switches

Publication: Research - peer-reviewJournal article – Annual report year: 2010

Without internal affiliation

  • Author: Tokushima, Masatoshi

    NEC Corporation, Japan, Nano Electronics Research Laboratories

  • Author: Vegas Olmos, Juan José

    Unknown

  • Author: Kitayama, Ken-lchi

    Osaka University

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Highly integrated optical device technology based on square-lattice Si-pillar photonic-crystal-(PC) waveguides is described. The Si-pillar PC waveguides are now ready to use, since efficient optical coupling structures to Si-wire waveguides have been devised. Nanophotonic switches using the Si-pillar-PC waveguides were experimentally demonstrated. The nanophotonic switches make use of two of the features of Si-pillar photonic crystal waveguides. One is the property of slow-light and the other is the usability of zero-radius 90° bends, both of which enable waveguide-based optical devices to be greatly miniaturized. Even apart from the cut-off wavelength, the group index of the pillar-PC waveguides was about 7.8, which was about twice that of a Si-wire waveguide for the entire C-band of telecommunications wavelengths. The 3-dB couplers we fabricated were only 3.2-μm long thanks to the 90° sharp bends, and they operated throughout the entire C-band. Waveguide-cross operation was also demonstrated in the entire C-band. Asymmetric Mach-Zehnder interferometers (MZIs) were configured by using the 3-dB couplers in an area of 13.2 × 37.2 μm. An MZI with a Si-wire heater successfully operated with an extinction ratio of about 20 dB at a heating power of 17 mW. It is strongly suggested that Si-pillar PC photonic-waveguide technology should help us to achieve densely integrated optical-matrix switches demanded for future photonic-telecommunication systems.
Original languageEnglish
JournalJournal of Nanoscience and Nanotechnology
Publication date2010
Volume10
Issue3
Pages1626-1634
ISSN1533-4880
DOIs
StatePublished

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CitationsWeb of Science® Times Cited: 0
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