Based on the principle of phi-sensitive optical time domain reflectometry (φ-OTDR), the distributed optical fiber acoustic sensing (DAS) system can detect long distance and real-time acoustic signal by demodulating the phase change of backward Rayleigh scattering in the single mode fiber. Low sensitivity of single-mode fiber limits the underwater acoustic signal detection. In this paper, we design an elastic sensitizing layer base element encapsulation structure, and establish a theoretical analysis model. The theoretical analysis and experiment are carried out, the sensitivity of the acoustic pressure sensitivity of the elastic sensitizing layer structure is -141.6dB re 1rad/μPa, which is in good agreement with the theory.
[1]
Clay K. Kirkendall,et al.
Overview of high performance fibre-optic sensing
,
2004
.
[2]
Fang Li,et al.
Fiber Laser Hydrophone Based on Double Diaphragms: Theory and Experiment
,
2008,
Journal of Lightwave Technology.
[3]
Gang-Ding Peng,et al.
Optical fiber distributed acoustic sensing based on the self-interference of Rayleigh backscattering
,
2016
.
[4]
Mikhail Y. Plotnikov,et al.
Experimental investigation of the thin fiber-optic hydrophone array based on fiber Bragg gratings
,
2017
.
[5]
Zhang Wenta.
Recent Progresses in Fiber Laser Hydrophone
,
2015
.