Title :
Multiplexing Scheme for Self-Interfering Long-Period Fiber Gratings Using a Low-Coherence Reflectometry
Author :
Jiang, Meng ; Guan, Zu-Guang ; He, Sailing
Author_Institution :
Zhejiang Univ., Hangzhou
Abstract :
A novel multiplexing scheme based on a low-coherence reflectometry (LCR) is proposed for a sensing array (in parallel) of self-interfering long-period fiber gratings (SI-LPGs). Each SI-LPG sensor consists of an LPG and a section of fiber with a highly reflective end (mirror). The spectral information of each LPG is sensitive to some parameters of the surrounding measurand and can be reconstructed from the corresponding subreflectograms (obtained by the LCR) through a fast Fourier transformation. The sensing signals of multiple SI-LPG sensors can be multiplexed if the length of the fiber section in each sensor is set to a different value. Experiments of measuring the surrounding temperature at different sensors are demonstrated to show the good performance of our multiplexing system.
Keywords :
Bragg gratings; fast Fourier transforms; mirrors; multiplexing; optical arrays; reflectometry; fast Fourier transformation; low-coherence reflectometry; multiplexing scheme; reflective end mirror; self-interfering long-period fiber gratings; sensing array; sensing signals; spectral information; Biomedical optical imaging; Fiber gratings; Optical fiber sensors; Optical films; Optical interferometry; Optical refraction; Optical sensors; Reflectometry; Temperature sensors; Wavelength division multiplexing; Long-period grating; Michelson interferometer; multiplexing system; optical low-coherence reflectometry (LCR); self-interfering;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2007.909089
