9.6 kW Common Aperture Spectral Beam Combination System Based on Multi-Channel Narrow-Linewidth Fiber Lasers

Ma Yi; Yan Hong; Peng Wanjing; Wang Xiaojun; Tian Fei; Sun Yinhong; Zhao Lei; Wang Shufeng; Li Tenglong; Liang Xiaobao; Wang Yanshan; Ran Huanhuan; Ke Weiwei; Feng Yujun; Tang Chun; Zhang Kai

doi:10.3788/cjl201643.0901009

Chinese Journal of Lasers, Volume. 43, Issue 9, 901009(2016)

9.6 kW Common Aperture Spectral Beam Combination System Based on Multi-Channel Narrow-Linewidth Fiber Lasers

Ma Yi^1,2, Yan Hong^1,2、*, Peng Wanjing^1,2, Wang Xiaojun^2,3, Tian Fei^1,2, Sun Yinhong^1,2, Zhao Lei⁴, Wang Shufeng^1,2, Li Tenglong^1,2, Liang Xiaobao⁴, Wang Yanshan^1,2, Ran Huanhuan¹, Ke Weiwei^2,3, Feng Yujun⁵, Tang Chun^1,2, and Zhang Kai^1,2

Author Affiliations

¹[in Chinese]

²[in Chinese]

³[in Chinese]

⁴[in Chinese]

⁵[in Chinese]

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References(13)

[1] [1] Andrusyak O, Ciapurin I, Smirnov V, et al. External and common-cavity high spectral density beam combining of high power fiber lasers[C]. SPIE, 2008, 6873: 687314.

[2] [2] Andrusyak O, Smirnov V, Venus G, et al. Spectral combining and coherent coupling of lasers by volume Bragg gratings[J]. IEEE J Sel Top Quantum Electron, 2009, 15(2): 344-353.

[3] [3] Ott D, Divliansky I, Anderson B, et al. Scaling the spectral beam combining channels in a multiplexed volume Bragg grating[J]. Optics Express, 2013, 21(24): 29620-29627.

[4] [4] Drachenberg D R, Andrusyak O, Venus G, et al. Thermal tuning of volume Bragg gratings for spectral beam combining of high-power fiber lasers[J]. Applied Optics, 2014, 53(6): 1242-1246.

[5] [5] Pu Shibing, Jiang Zongfu, Xu Xiaojun. Numerical analysis of spectral beam combining by volume Bragg grating[J]. High Power Laser and Particle Beams, 2008, 20(5): 721-724.

[6] [6] Wang Junzhen, Wang Yuefeng, Bai Huijun. Study on multi-channel spectral beam combined characteristics based on volume Bragg gratings[J]. Laser Technology, 2012, 36(5): 593-596.

[7] [7] Liang Xiaobao, Chen Liangming, Li Chao, et al. High average power spectral beam combining employing volume Bragg gratings[J]. High Power Laser and Particle Beams, 2015, 27(7): 071012.

[8] [8] Madasamy P, Loftus T, Thomas A, et al. Comparison of spectral beam combining approaches for high power fiber laser systems[C]. SPIE, 2008, 6952: 695207.

[9] [9] Loftus T H, Thomas A M, Hoffman P R, et al. Spectrally beam-combined fiber lasers for high-average-power applications[J]. IEEE J Sel Top Quantum Electron, 2007, 13(3): 487-497.

[10] [10] Wirth C, Schmidt O, Tsybin I, et al. High average power spectral beam combining of four fiber amplifiers to 8.2 kW[J]. Optics Letters, 2011, 36(16): 3118-3120.

[11] [11] Honea E, Afzal R S, Savage-Leuchs M, et al. Spectrally beam combined fiber lasers for high power, efficiency and brightness[C]. SPIE, 2012, 8547: 854706.

[12] [12] Tian F, Yan H, Chen L, et al. Investigation on the influence of spectral linewidth broadening on beam quality in spectral beam combination[C]. SPIE, 2014, 9255: 92553N.

[13] [13] Huang Z H, Liang X B, Li C Y, et al. Spectral broadening in high-power Yb-doped fiber lasers employing narrow-linewidth multilongitudinal-mode oscillators[J]. Applied Optics, 2016, 55(2): 297-302.

CLP Journals

[1] Ma Yi, Yan Hong, Sun Yinhong, Peng Wanjing, Li Jianmin, Wang Shufeng, Li Tenglong, Wang Yanshan, Tang Chun, Zhang Kai. Recent progress of key technologies for spectral beam combining of fiber laser with dual-gratings configuration(Invited)[J]. Infrared and Laser Engineering, 2018, 47(1): 103002

[2] Gan Qijun, Jiang Benxue, Zhang Pande, Jiang Yiguang, Chen Shuilin, Zhang Long. Research Progress of High Average Power Solid-State Lasers[J]. Laser & Optoelectronics Progress, 2017, 54(1): 10003

[3] Cheng Xue, Wang Jianli, Liu Changhua. Beam combining of high energy fibre lasers[J]. Infrared and Laser Engineering, 2018, 47(1): 103011

[4] Wang Xiaolin, Zhou Pu, Su Rongtao, Ma Pengfei, Tao Rumao, Ma Yanxing, Xu Xiaojun, Liu Zejin. Current Situation, Tendency and Challenge of Coherent Combining of High Power Fiber Lasers[J]. Chinese Journal of Lasers, 2017, 44(2): 201001

[5] Zheng Ye, Yang Yifeng, Zhao Xiang, Gong Weichao, Bai Gang, Zhang Jingpu, Liu Kai, Chen Xiaolong, Zhao Chun, Qi Yunfeng, Jin Yunxia, He Bing, Zhou Jun. Research Progress on Spectral Beam Combining Technology of High-Power Fiber Lasers[J]. Chinese Journal of Lasers, 2017, 44(2): 201002

[6] Jiang Man, Ma Pengfei, Zhou Pu, Liu Zejin. Performance of Laser Beam Combination System Based on Brightness[J]. Acta Optica Sinica, 2017, 37(7): 714001

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Ma Yi, Yan Hong, Peng Wanjing, Wang Xiaojun, Tian Fei, Sun Yinhong, Zhao Lei, Wang Shufeng, Li Tenglong, Liang Xiaobao, Wang Yanshan, Ran Huanhuan, Ke Weiwei, Feng Yujun, Tang Chun, Zhang Kai. 9.6 kW Common Aperture Spectral Beam Combination System Based on Multi-Channel Narrow-Linewidth Fiber Lasers[J]. Chinese Journal of Lasers, 2016, 43(9): 901009

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Paper Information

Category: laser devices and laser physics

Received: Mar. 29, 2016

Accepted: --

Published Online: May. 25, 2018

The Author Email: Yan Hong (yanhong@caep.cn)

DOI:10.3788/cjl201643.0901009

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology