High Quality-Factor 1-D-Suspended Photonic Crystal/Photonic Wire Silicon Waveguide Micro-Cavities

High Quality-Factor 1-D-Suspended Photonic Crystal/Photonic Wire Silicon Waveguide Micro-Cavities

We have successfully fabricated and characterized suspended one-dimensional (1-D) photonic crystal/photonic wire (PhC/PhW) waveguide micro-cavities based on silicon-on-insulator (SOI). Our experiments have shown an enhancement of the resonance Q -factor from 18 700 to approximately 24 000, with norm...

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Veröffentlicht in:IEEE photonics technology letters 2009-12, Vol.21 (24), p.1789-1791
Hauptverfasser: Md Zain, A.R., Johnson, N.P., Sorel, M., De La Rue, R.M.
Format: Artikel
Sprache:eng
Schlagworte:
Cladding
Finite difference methods
Integrated optics
membrane photonics
Optical waveguides
Photonic crystals
photonic crystals (PhCs)
photonic wires (PhWs)
Photonics
Resonance
Silicon
Silicon compounds
Silicon dioxide
Silicon on insulator technology
silicon-on-insulator (SOI)
Three dimensional
Time domain analysis
Time measurement
Waveguides
Wavelength measurement
Wire
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Beschreibung
Zusammenfassung:We have successfully fabricated and characterized suspended one-dimensional (1-D) photonic crystal/photonic wire (PhC/PhW) waveguide micro-cavities based on silicon-on-insulator (SOI). Our experiments have shown an enhancement of the resonance Q -factor from 18 700 to approximately 24 000, with normalized optical transmission of 70%, after removing the silica cladding underneath the silicon waveguide. We have also demonstrated that, for this condition, the resonance peak wavelength can be controlled by varying the length of the micro-cavity. These results were obtained by removing the silica cladding below the silicon waveguide to produce a ldquohangingrdquo wire waveguide. The three-dimensional (3-D) finite-difference time domain (FDTD) simulation approach used shows good agreement with measured results.
ISSN:1041-1135
1941-0174
DOI:10.1109/LPT.2009.2033712