[1] TAN Bo, HUANG Jun-bin, HE Lin, et a1. A study on the dynamical characteristics of distributed feedback fiber laser［J］．Optics and Precision Engineering, 2009, 17(8): 1832-l838.

[2] FOSTER S, TIKHOMIROV A, VELZEN J V. Towards a high performance fiber laser hydrophone［J］. Journal of Lightwave Technology, 2011, 29(9): 1335-1341.

[3] TAN Bo, HUANG Jun-bin. Design of encapsulated structure of distributed feedback fiber laser hydrophone［J］. Optics and Precision Engineering, 2012, 20(8): 1691-1695.

[4] WANG Jun-jie, JIANG De-sheng, XIE Guan-mo, et al. Research of the planar optical fiber Bragg grating hydrophone probe with acceleration compensation methods［J］. Acta Acoustica. 2009, 34(4): 311-317.

[5] LI Dong-ming. Research on key technology interferometric hydrophone of fiber Bragg grating［D］. Hangzhou: Zheiiang University, 2013.

[6] YUN Chao-qing, LUO Hong, HUANG Zheng-liang, et al. Fiber optic hydrophone used for thin line towed array［J］. Acta Optica Sinica, 2012, 32(12): 1206004.

[7] TANG Bo, HUANG Jun-bin, GU Hong-can, et al. Prestressing force in DFB fiber laser hydrophone: theory and experiment［J］. Chinese Journal of Lasers, 2016, 43(3): 0305005.

[8] LI Dong-ming, CHEN Jun, GE Hui-liang, et al. Research of high sensitivity and anti-acceleration of DFB active fiber Grating hydrophone［J］. Chinese Journal of Lasers, 2012, 39(3): 1-6.

[9] TAN Bo, YAN Ping, HUANG Jun-bin. Optimization design of sandwich-type probe of fiber laser hydrophones［J］. High Power Laser and Particle Beams, 2015, 27(2): 024120.

[10] LIU Meng-ran, JIAN Ze-ming, ZHANG Guo-jun, et al. Fluid-structure interaction of MEMS vector hydrophone in packing processing［J］. Optics and Precision Engineering, 2015, 23(5): 1387-1393.

[11] TAN Bo, HUANG Jun-bin, GU Hong-can, et a1. A bending-tension style DFB fiber laser hydrophone unit［J］. Journal of Naval University of Engineering, 2008, 20(4): 91-96.