Title :
A novel fiber-optic sensor array based on the Sagnac interferometer
Author :
Vakoc, Benjamin J. ; Digonnet, Michel J F ; Kino, Gordon S.
Author_Institution :
Edward L. Ginzton Lab., Stanford Univ., CA, USA
fDate :
11/1/1999 12:00:00 AM
Abstract :
We propose a novel design for a fiber-optic acoustic sensor array that is based on the Sagnac interferometer. The performance of this Sagnac sensor array (SSA) design is analyzed and compared to acoustic sensor arrays based on the Mach-Zehnder (MZ) interferometer. It is found that the SSA exhibits several decisive advantages, including a stable bias point, a reduced conversion of source phase noise into intensity noise, and a frequency response that matches the ambient ocean noise. It is also shown that the SSA can be easily designed to have a much larger dynamic range than an MZ-based sensor array. Potential noise sources are analyzed and shown to be manageable. A means for eliminating polarization-induced signal fading is presented. The applicability of time-division, frequency-division, and code-division multiplexing schemes for the proposed design is presented
Keywords :
distributed sensors; fibre optic sensors; frequency division multiplexing; frequency response; hydrophones; light interferometers; oceanographic equipment; optical arrays; optical noise; phase noise; sonar arrays; time division multiplexing; underwater sound; Sagnac interferometer; Sagnac sensor array design; ambient ocean noise; code-division multiplexing; dynamic range; fiber-optic acoustic sensor array; frequency response; frequency-division multiplexing; noise sources; polarization-induced signal fading; source phase noise conversion; stable bias point; time-division multiplexing; underwater acoustic sensors; Acoustic arrays; Acoustic noise; Acoustic sensors; Noise reduction; Optical fiber polarization; Optical fiber sensors; Performance analysis; Phase noise; Sagnac interferometers; Sensor arrays;
Journal_Title :
Lightwave Technology, Journal of
