Scholarly Works, Fiber & ElectroOptics Research Center (FEORC)
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Browsing Scholarly Works, Fiber & ElectroOptics Research Center (FEORC) by Author "May, Russell G."
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- Optical Scanning Extrinsic Fabry-Perot Interferometer For Absolute Microdisplacement MeasurementLi, Tianchu Li; May, Russell G.; Wang, Anbo; Claus, Richard O. (Optical Society of America, 1997-02-01)We report an optical-scanning, dual-fiber, extrinsic Fabry-Perot interferometer system for absolute measurement of microdisplacement. The system involves two air-gapped Fabry-Perot cavities, formed by fiber end faces, functioning as sensing and reference elements. Taking the scanning wavelength as an interconverter to compare the gap length of the sensing head with the reference-cavity length yields the absolute measurement of the sensing-cavity length. The measurement is independent of the wavelength-scanning accuracy, and the reference-cavity length can be self-calibrated simply by one's changing the sensing-head length by an accurate value. (C) 1997 Optical Society of America.
- Sapphire Fibers: Optical Attenuation And Splicing TechniquesBarnes, Adam E.; May, Russell G.; Gollapudi, Sridhar; Claus, Richard O. (Optical Society of America, 1995-12-01)The optical attenuation in sapphire fibers was examined. Attenuation was found to depend heavily on injection conditions. A number of techniques for making sapphire-silica fiber splices were attempted, with an effort toward optimizing injection conditions in the sapphire fiber. The most successful of these techniques, interior capillary-tube splicing, produced robust splices with an attenuation of less than 1 dB.