Time-Frequency Analysis for an Efficient Detection and Localization of Side-Coupled Cavities in Real Photonic Crystals

Time-Frequency Analysis for an Efficient Detection and Localization of Side-Coupled Cavities in Real Photonic Crystals

We propose and demonstrate here the high efficiency of concurrent time and frequency analysis to detect and unambiguously identify the coupled cavities in real photonic crystals containing imperfections and/or process-induced disorder. This procedure when applied to reflectograms recorded using phas...

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Veröffentlicht in:Journal of lightwave technology 2010-03, Vol.28 (5), p.816-821
Hauptverfasser: Gottesman, Y., Combrie, S., DeRossi, A., Talneau, A., Hamel, P., Parini, A., Gabet, R., Jaouen, Y., Benkelfat, B.-E., Rao, E.V.K.
Format: Artikel
Sprache:eng
Schlagworte:
Assessments
Biomedical optical imaging
Cavities
Disorders
Engineering Sciences
Holes
interferometry
Light scattering
Localization
Optical interferometry
optical low-coherence reflectometry
Optical recording
Optical scattering
Optics
Photonic
Photonic crystals
Photons
Position (location)
Reflectometry
Resonance light scattering
Resonant frequency
Spectra
Time frequency analysis
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Beschreibung
Zusammenfassung:We propose and demonstrate here the high efficiency of concurrent time and frequency analysis to detect and unambiguously identify the coupled cavities in real photonic crystals containing imperfections and/or process-induced disorder. This procedure when applied to reflectograms recorded using phase-sensitive optical low-coherence reflectometry allows a straightforward and complete assessment of cavities (spectral and spatial localization in addition to photon lifetime) over a wide spectral range. Considering such a reflectogram (recorded in ~ 2 s), we show that this procedure greatly eases the evaluation of cavities under guiding conditions in real photonic crystals by discriminating their signature from the in-plane scattering induced by disorder.
ISSN:0733-8724
1558-2213
DOI:10.1109/JLT.2009.2034988