An investigation of a fiber-optic air-backed mandrel hydrophone

In this work, a optical-fiber air-backed mandrel hydrophone is proposed and investigated both analytically and experimentally. The two-dimensional and three-dimensional quasistatically theoretical models of the hydrophone is created and compared, and the phase sensitivity of the hydrophone is analyzed. The theoretical result of phase sensitivity with three-dimensional model is -153.3 dB re rad/mu Pa. Twenty-two hydrophones of this type according to the model presented are constructed and tested. The experiment results show that experimental results of mean values of phase sensitivity are about -153 +/- 0.5 dB re rad/mu Pa and have the close agreement with the estimation of theoretical models. The size of the fiber sensor is circle divide 12 x 55 mm, the normal phase sensitivity achieves -308 dB re 1 mu Pa-1, the 3 dB effective bandwidth of the frequency response is 30 kHz, and the responsivity decreases less than 0.5 dB when static pressure is 2 MPa (200 m water depth). The hydrophone is easy to constructed at low cost with simple structure. and some flew type of it with the required performances could be designed according to the model presented. (c) 2007 Elsevier B.V. All rights reserved.