Title :
1.5 kW Incoherent Beam Combining of Four Fiber Lasers Using Adaptive Fiber-Optics Collimators
Author :
Chao Geng ; Baoyin Zhao ; Entao Zhang ; Wen Luo ; Yi Tan ; Yonggang Zhu ; Hening Yang ; Jinbo Mu ; Xinyang Li ; Kailiang Duan ; Wei Zhao
Author_Institution :
Inst. of Opt. & Electron., Chengdu, China
Abstract :
We demonstrate the incoherent beam combining (BC) of four high-power single-mode fiber lasers. Adaptive fiber-optics collimators (AFOC) of 0.5 kW-level are developed to correct the tip/tilt-type phase errors among beamlets. The maximum deflection angle of the AFOC is about 0.29 mrad. A stochastic parallel gradient descent algorithm is employed as the tip/tilt control strategy. The tip/tilt control makes four separate laser beams overlap with each other in the far-field, and the average of normalized power-in-bucket increases from 0.171 in open loop to 0.798 in closed loop when 1.5-kW total output power is achieved. The precise tracking ability and control accuracy of this BC system are investigated. Experimental results expose that thermal-blooming effect disturbs BC seriously when the total output power is up to kW-level, which could be mitigated by inducing air flow near the laser output.
Keywords :
adaptive optics; fibre lasers; gradient methods; laser beams; laser modes; optical collimators; stochastic processes; thermal blooming; AFOC deflection angle; adaptive fiber-optics collimators; air flow; beamlets; closed loop; high-power single-mode fiber lasers; incoherent beam combining; laser beams; laser output; open loop; output power; power 0.5 kW; power 1.5 kW; power-in-bucket; stochastic parallel gradient descent algorithm; thermal-blooming effect; tilt-type phase errors; tip-tilt control strategy; tip-type phase errors; High-power fiber laser; adaptive fiber-optics collimator; beam combining; thermal-blooming; tip/tilt control;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2013.2263123
