Title :
High Sensitivity of Temperature Sensor Based on Ultracompact Photonics Crystal Fibers
Author :
Hailiang Chen ; Shuguang Li ; Jianshe Li ; Ying Han ; Yidong Wu
Author_Institution :
State Key Lab. of Metastable Mater. Sci. & Technol., Yanshan Univ., Qinhuangdao, China
Abstract :
A temperature sensor with high sensitivity based on ultracompact photonics crystal fibers is proposed and analyzed by the finite-element method. The temperature-sensitive materials are injected into one cladding air hole, which shows high confinement loss and works as a defect core. As the phase-matched condition is satisfied, the power in the transferring core couples to the defect core. The temperature sensitivity and figure of merit reach to 2.82 nm/°C, 0.105/°C and 1.99 nm/°C, 0.048/°C, for the y-polarized and x-polarized directions, respectively, which are one to two orders of magnitude better than other reported sensors. The performance characteristics can be further improved by optimizing the structure parameters and infilling materials.
Keywords :
fibre optic sensors; finite element analysis; holey fibres; optical losses; optical phase matching; photonic crystals; temperature sensors; cladding air hole; confinement loss; defect core; finite-element method; high temperature sensitivity; infilling material optimization; phase-matched condition; structure parameters optimization; temperature sensor; temperature-sensitive materials; ultracompact photonics crystal fibers; Frequency conversion; Materials; Photonic crystals; Refractive index; Sensitivity; Temperature sensors; Photonics crystal fibers; Temperature sensitive materials; Temperature sensor; temperature sensitive materials; temperature sensor;
Journal_Title :
Photonics Journal, IEEE
DOI :
10.1109/JPHOT.2014.2366157
