High-Frequency Fiber-Optic Ultrasonic Sensor Using Air Micro-Bubble for Imaging of Seismic Physical Models

Tingting Gang; Manli Hu; Qiangzhou Rong; Xueguang Qiao; Lei Liang; Nan Liu; Rongxin Tong; Xiaobo Liu; Ce Bian

doi:10.3390/s16122125

High-Frequency Fiber-Optic Ultrasonic Sensor Using Air Micro-Bubble for Imaging of Seismic Physical Models

Sensors (Basel). 2016 Dec 14;16(12):2125. doi: 10.3390/s16122125.

Authors

Tingting Gang¹, Manli Hu², Qiangzhou Rong³, Xueguang Qiao⁴, Lei Liang⁵, Nan Liu⁶, Rongxin Tong⁷, Xiaobo Liu⁸, Ce Bian⁹

Affiliations

¹ Physics Department, Northwest University, No. 229, Taibai Road (North), Xi'an 710069, China. tingtinggang1@163.com.
² Physics Department, Northwest University, No. 229, Taibai Road (North), Xi'an 710069, China. huml@nwu.edu.cn.
³ Physics Department, Northwest University, No. 229, Taibai Road (North), Xi'an 710069, China. qzrong2010@gmail.com.
⁴ Physics Department, Northwest University, No. 229, Taibai Road (North), Xi'an 710069, China. xgqiao@nwu.edu.cn.
⁵ Physics Department, Northwest University, No. 229, Taibai Road (North), Xi'an 710069, China. lianglei@opt.ac.cn.
⁶ Physics Department, Northwest University, No. 229, Taibai Road (North), Xi'an 710069, China. liu_nan07@163.com.
⁷ Physics Department, Northwest University, No. 229, Taibai Road (North), Xi'an 710069, China. tong_rongxin@163.com.
⁸ Physics Department, Northwest University, No. 229, Taibai Road (North), Xi'an 710069, China. liuxiaobofight@163.com.
⁹ Physics Department, Northwest University, No. 229, Taibai Road (North), Xi'an 710069, China. bc459873556@126.com.

Abstract

A micro-fiber-optic Fabry-Perot interferometer (FPI) is proposed and demonstrated experimentally for ultrasonic imaging of seismic physical models. The device consists of a micro-bubble followed by the end of a single-mode fiber (SMF). The micro-structure is formed by the discharging operation on a short segment of hollow-core fiber (HCF) that is spliced to the SMF. This micro FPI is sensitive to ultrasonic waves (UWs), especially to the high-frequency (up to 10 MHz) UW, thanks to its ultra-thin cavity wall and micro-diameter. A side-band filter technology is employed for the UW interrogation, and then the high signal-to-noise ratio (SNR) UW signal is achieved. Eventually the sensor is used for lateral imaging of the physical model by scanning UW detection and two-dimensional signal reconstruction.

Keywords: Fabry-Perot interferometer; high frequency ultrasonic detection; ultrasonic imaging.