Title :
Long Period Fiber Gratings Inscribed With an Improved Two-Dimensional Scanning Technique
Author :
Xiaoyong Zhong ; Yiping Wang ; Changrui Liao ; Guolu Yin ; Jiangtao Zhou ; Guanjun Wang ; Bing Sun ; Jian Tang
Author_Institution :
Key Lab. of Optoelectron. Devices & Syst. of the Minist. of Educ. & Guangdong Province, Shenzhen Univ., Shenzhen, China
Abstract :
We demonstrated a promising CO2 laser irradiation system based on an improved 2-D scanning technique. Such a system could be used to inscribe high-quality long period fiber gratings (LPFGs) with good reproducibility of grating inscription, which attributes to the fact that our system includes a CO2 laser with an excellent power stability of less than ±2% and a 3-D ultraprecision motorized translation stages with an excellent bidirectional repeatability value of 80 nm. Moreover, a control program with an easy-to-use operation interface was developed in our system so that a high-quality LPFG could be achieved as soon as grating parameters, such as grating pitch and number of grating periods, are entered, which has a widespread commercial value and prospects for development. Additionally, near mode fields of the CO2-laser-induced LPFG were observed and simulated to investigate mode coupling in the gratings.
Keywords :
carbon compounds; diffraction gratings; gas lasers; laser materials processing; laser stability; optical fibre cladding; optical scanners; 2D scanning technique; 3D ultraprecision motorized translation stages; CO2; CO2 laser irradiation system; LPFG; grating periods; grating pitch; improved two-dimensional scanning technique; long period fiber gratings; mode coupling; power stability; Fiber gratings; Fiber lasers; Gratings; Laser beams; Laser modes; Laser stability; Optical fibers; $hbox{CO}_{2}$ laser; 2-D scanning; Long period fiber gratings (LPFGs); fiber optics components; optical fiber sensors;
Journal_Title :
Photonics Journal, IEEE
DOI :
10.1109/JPHOT.2014.2337875
