Optoelectronics System Laboratory, Institute of Semiconductors, Chinese Academy of Sciences, Beijing, China.
Opt Lett. 2011 Nov 15;36(22):4320-2. doi: 10.1364/OL.36.004320.
A distributed-feedback fiber laser hydrophone with band-pass response is presented. The design of the hydrophone aims to equalize static pressure and eliminate signal aliasing of high-frequency acoustic components. Theoretical analysis is presented based on electro-acoustic theory. The experimental results agree well with the theory. The measured underwater responses show that the hydrophone has a pressure sensitivity of -170 dB re:pm/μPa over a bandwidth between 100 Hz and 500 Hz. A sensitivity reduction exceeding -35 dB is observed at 2500 Hz. The tested static pressure sensitivity of the hydrophone is -226 dB. The proposed fiber laser hydrophone of this kind is expected to have important application in deep water fiber-optic sonar systems with anti-aliasing, and the understanding gained through this work can be extended to a guide of hydrophone design for required filtering bandwidth.
提出了一种具有带通响应的分布式反馈光纤水听器。该水听器的设计旨在均衡静态压力并消除高频声分量的信号混叠。基于电声理论进行了理论分析。实验结果与理论吻合较好。测量的水下响应表明,该水听器在 100 Hz 至 500 Hz 的带宽内具有-170 dB re:pm/μPa 的压力灵敏度。在 2500 Hz 时观察到超过-35 dB 的灵敏度降低。该水听器的测试静态压力灵敏度为-226 dB。这种光纤激光水听器有望在具有抗混叠功能的深水光纤声纳系统中得到重要应用,通过这项工作获得的认识可以扩展到所需滤波带宽的水听器设计指南。