Title :
All Fiber Real-Time Laser Wavelength Measurement Method Based on Faraday Rotation Effect
Author :
Enmei Shan ; Yi Li ; Ben Xu ; Changyu Shen ; Chunliu Zhao ; Xinyong Dong ; Shangzhong Jin
Author_Institution :
Coll. of Opt. & Electron. Technol., China Jiliang Univ., Hangzhou, China
Abstract :
An all fiber real-time laser wavelength measurement method based on Faraday rotation effect is proposed and demonstrated, for correcting the nonlinear tuning of wavelength sweep lasers. The wavelength measurement setup is mainly composed of a specially designed fiber magneto-optic device and a wavelength sensitive filter. When the linearly polarized lights with different wavelengths pass through the magneto-optic crystal, their polarization planes will be rotated at different angles. By taking use of the dispersion effect, the light wavelength can be measured by detecting the rotated angles. In our experiments, the wavelength resolution can reach 2.1 pm with a measurement range from 1520 to 1570 nm. Besides monitoring the wavelength tuning, it should be also useful in laser wavelength calibration and optical fiber sensing.
Keywords :
Faraday effect; fibre lasers; laser tuning; laser variables measurement; magneto-optical devices; nonlinear optics; optical fibre dispersion; optical fibre filters; optical fibre polarisation; Faraday rotation effect; all-fiber real-time laser wavelength measurement method; dispersion effect; fiber magneto-optic device; laser wavelength calibration; light wavelength; linearly polarized lights; magneto-optic crystal; nonlinear tuning; optical fiber sensing; polarization planes; rotated angles; wavelength 1520 nm to 1570 nm; wavelength resolution; wavelength sensitive filter; wavelength sweep lasers; wavelength tuning; Crystals; Faraday effect; Optical fiber devices; Optical fiber polarization; Temperature measurement; Wavelength measurement; Faraday effect; Fiber optics; Fiber optics components; Tunable lasers; fiber optics components; tunable lasers;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2015.2457943
