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Gas Sensors Based on Single-Arm Waveguide InterferometersVarious optical technologies can be implemented in chemical sensing. Sensitive, rugged, and compact systems will be more likely built using interferometric waveguide sensors. Currently existing sensors comprise dual-arm systems with external reference arm, dual-arm devices with internal reference arm such as integrated Mach-Zehnder interferometer, and single-arm systems which employ the interference between different waveguide modes. These latter ones are the most compact and rugged but still sensitive enough to monitor volatile pollutants such as NH3 coming out of industrial refrigerators and fertilizer plants and stocks, NO, NO2, SO2, emitted by industrial burning processes. Single-arm devices in planar waveguide configuration most frequently use two orthogonally polarized modes TE (sub i) and TM (sub i) of the same order i. Sensing effect is based on the difference in propagation conditions for the modes caused by the environment. However, dual-mode single-order interferometers still have relatively low sensitivity with respect to the environment related changes in the waveguide core because of small difference between propagation constants of TE (sub i) and TM (sub i) modes of the same order. Substantial sensitivity improvement without significant complication can be achieved for planar waveguide interferometers using modes of different orders with much greater difference between propagation constants.
Document ID
20000032297
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Sarkisov, Sergey
(Alabama A & M Univ. Normal, AL United States)
Curley, Michael
(Alabama A & M Univ. Normal, AL United States)
Diggs, Darnell
(Alabama A & M Univ. Normal, AL United States)
Adamovsky, Grigory
(NASA Lewis Research Center Cleveland, OH United States)
Date Acquired
August 19, 2013
Publication Date
February 22, 1998
Publication Information
Publication: NASA University Research Centers Technical Advances in Aeronautics, Space Sciences and Technology, Earth Systems Sciences, Global Hydrology, and Education
Volume: 2 and 3
Subject Category
Instrumentation And Photography
Report/Patent Number
98URC047
Report Number: 98URC047
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.
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