Title :
Cascaded Random Fiber Laser Based on Hybrid Brillouin-Erbium Fiber Gains
Author :
Changqing Huang ; Xinyong Dong ; Shuyuan Zhang ; Nan Zhang ; Shum, Perry Ping
Author_Institution :
Inst. of Optoelectron. Technol., China Jiliang Univ., Hangzhou, China
Abstract :
We demonstrate a stable, cascaded random fiber laser with a half-open cavity, which is based on hybrid Brillouin-erbium fiber gains and uses Rayleigh scattering as random distributed feedback. Up to four cascaded stimulated Brillouin stokes lines with frequency spacing of about 11 GHz have been generated. The peak power difference between the first and fourth stokes lines is 2.808 dB. The number of output stokes lines can be controlled by the 980 nm pump power. Peak power discrepancy between the odd and even stokes lines is avoided using the scheme of half-open cavity. The optimized Brillouin pump power is reduced to 1-2 mW and the multiwavelength output is flattened due to the employment of erbium-doped fiber.
Keywords :
Rayleigh scattering; distributed feedback lasers; erbium; fibre lasers; laser beams; laser cavity resonators; optical pumping; stimulated Brillouin scattering; Rayleigh scattering; cascaded random fiber laser; cascaded stimulated Brillouin stokes lines; erbium-doped fiber; even stokes lines; frequency 11 GHz; frequency spacing; half-open cavity; hybrid Brillouin-erbium fiber gains; multiwavelength output; odd stokes lines; optimized Brillouin pump power; output stokes line number; peak power difference; peak power discrepancy; power 1 mW to 2 mW; random distributed feedback; stable random fiber laser; wavelength 980 nm; Cavity resonators; Distributed feedback devices; Fiber lasers; Laser feedback; Optical fiber amplifiers; Optical fiber dispersion; Scattering; Fiber lasers; Rayleigh scattering; random distributed feedback; stimulated Brillouin scattering;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2014.2321386
