Plasmofluidic Disk Resonators
نویسندگان
چکیده
منابع مشابه
Plasmofluidic Disk Resonators
Waveguide-coupled silicon ring or disk resonators have been used for optical signal processing and sensing. Large-scale integration of optical devices demands continuous reduction in their footprints, and ultimately they need to be replaced by silicon-based plasmonic resonators. However, few waveguide-coupled silicon-based plasmonic resonators have been realized until now. Moreover, fluid canno...
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Polysilicon wine-glass mode micromechanical disk resonators using a stemless, non-intrusive suspension structure have been demonstrated in both vacuum and atmospheric pressure at frequencies around 73.4 MHz with Q’s as high as 98,000 in vacuum, and 8,600 in atmosphere—the highest ever reported Q’s at this frequency range and in these environments for any on-chip micro-scale resonator. The Q of ...
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Plasmonics provides an unparalleled method for manipulating light beyond the diffraction limit, making it a promising technology for the development of ultra-small, ultra-fast and power-efficient optical devices. To date, the majority of plasmonic devices are in the solid state and have limited tunability or configurability. Moreover, individual solid-state plasmonic devices lack the ability to...
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We report the measurement of cavity propagation losses in nearly single-mode semiconductor waveguide-coupled ring and disk microcavity optical resonators. Using a novel 10.5m-diameter ring resonator, we measure transverse electric (TE) and transverse magnetic (TM) field intensity losses in 0.35m-wide ring waveguide cavities in the 1.55m-wavelength region. We present the experimental results for...
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ژورنال
عنوان ژورنال: Scientific Reports
سال: 2016
ISSN: 2045-2322
DOI: 10.1038/srep23149