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  • 2017 Conference on Lasers and Electro-Optics Pacific Rim
  • (Optica Publishing Group, 2017),
  • paper s0937

Selectively Filled Dual-Core Photonic Crystal Fiber Sensors Interrogated by Low Coherence Interferometer for Temperature Measurement

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Abstract

In this work, we propose and demonstrate an optical fiber sensing system consists of fiber sensors made by selectively infiltrated dual-core photonic crystal fiber and demodulation system based on low coherence interferometry. The sensor used in the system is made by selectively filling about 1/3 area of air holes at the cladding of photonic crystal fiber with deionized water. So the two cores of the fiber surrounded by different materials have different effective-refractive indices, which provide a phase delay between two lights propagating in the two cores. The phase delay of the sensor can be affected by surrounding temperature, strain, refractive index et al. By tracking the value of phase delay, the change of the measurand can be detected. A Mach-Zehnder interferometer with a scanning optical tunable delay line in one arm is adopted to demodulate the phase delay from the sensor, namely temporal interrogation. The demodulation system can multiplex several sensors with different phase delays to form a quasi-distributed sensing system with quasi-real time measurement. Temperature measurement is carried out to testify the system performance. This work provides a new method to demodulate self-interfering photonic crystal fiber sensor based on low coherence interferometry. The proposed all-fiber sensing system, with the merits of costeffective, stability, and flexibility, can demodulate the self- interfering fiber sensor signals well. Further improvements such as better sensitivity, larger measurement range and higher multiplexing capacity can be realized by tailoring the PCF sensor’s structure.

© 2017 Optical Society of America

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