Title :
Coherence-tuned interrogation of a remote elliptical-core, dual-mode fiber strain sensor
Author :
Bohnert, K. ; De Wit, G.C. ; Nehring, J.
Author_Institution :
Asea Brown Boveri Corp. Res., Baden, Switzerland
fDate :
1/1/1995 12:00:00 AM
Abstract :
Two dual-mode fibers in tandem act as unbalanced sensor and recovery interferometers. We investigate how coherence-tuned interrogation of the remote sensor fiber is affected by the coherence properties of the multimode laser diode source and the modal group index difference of the dual-mode fibers. The parameters for optimized sensor performance are ascertained. We focus particularly on the recovery of small optical phase modulations induced by periodic strain. Using homodyne phase tracking, stability of the detected ac signal is achieved to within ±10-3 in the presence of additional, quasistatic phase drifts of large amplitude. The minimum detectable differential modal phase modulation is 5 μrad rms/√Hz at 70 Hz. As an example, remote interrogation of a piezoelectric quartz high-voltage transducer is demonstrated
Keywords :
fibre optic sensors; light coherence; light interferometers; optical modulation; optimisation; phase modulation; refractive index; remote sensing; stability; tuning; coherence properties; coherence-tuned interrogation; detected ac signal; dual-mode fiber strain sensor; homodyne phase tracking; large amplitude; minimum detectable differential modal phase modulation; modal group index difference; multimode laser diode source; optimized sensor performance; periodic strain; piezoelectric quartz high-voltage transducer; quasistatic phase drifts; recovery interferometers; remote elliptical-core; remote interrogation; remote sensor fiber; small optical phase modulations; stability; unbalanced sensor; Capacitive sensors; Diode lasers; Interferometers; Optical fiber sensors; Optical interferometry; Optical modulation; Optical sensors; Phase detection; Phase modulation; Remote sensing;
Journal_Title :
Lightwave Technology, Journal of
