Please wait a minute...
Chin. Phys. B, 2011, Vol. 20(11): 114203    DOI: 10.1088/1674-1056/20/11/114203
CLASSICAL AREAS OF PHENOMENOLOGY Prev   Next  

The 260-W coherent beam combining of two compact fibre amplifier chains

Wang Xiao-Lin(王小林)a)†, Ma Yan-Xing(马阎星) a), Zhou Pu(周朴)a), He Bing(何兵)b), Xue Yu-Hao(薛宇豪)b), Liu Chi(刘驰)b), Li Zhen(李震)b), Xiao Hu(肖虎) a), Xu Xiao-Jun(许晓军)a), Zhou Jun(周军)b), Liu Ze-Jin(刘泽金)a), and Zhao Yi-Jun(赵伊君)a)
a College of Optoelectronic Science and Engineering, National University of Defense Technology, Changsha 410073, China; b Shanghai Institute of Optics and Fine Mechanics, Shanghai 201800, China
Abstract  Coherent beam combining of two fibre amplifier chains with a total power of 260 W in a compact system using the stochastic parallel gradient descent (SPGD) algorithm is demonstrated. A 150 MHz linewidth fibre laser is built and introduced for high-power amplification to mitigate stimulated Brillouin scattering (SBS). Compact high-power amplifier chains are built with low power all-fibre system and high-power bulk free-optics fibre amplifiers. When the total power is about 260 W, active phase-locking of two high-power amplifiers is demonstrated using the SPGD algorithm. In closed-loop, the power in the main lobe increases 1.68 times, the visibility is increased from 0 to 0.62, and the phase residual error is less than $\lambda$/10.
Keywords:  fibre amplifier      coherent beam combining      stimulated Brillouin scattering      stochastic parallel gradient descent algorithm  
Received:  21 February 2011      Revised:  11 June 2011      Accepted manuscript online: 
PACS:  42.25.Kb (Coherence)  
  42.55.Wd (Fiber lasers)  
  42.65.Es (Stimulated Brillouin and Rayleigh scattering)  
Fund: Project supported by the Innovation Foundation for Graduates in National University of Defense Technology, China (Grant No. B080702).

Cite this article: 

Wang Xiao-Lin(王小林), Ma Yan-Xing(马阎星), Zhou Pu(周朴), He Bing(何兵), Xue Yu-Hao(薛宇豪), Liu Chi(刘驰), Li Zhen(李震), Xiao Hu(肖虎), Xu Xiao-Jun(许晓军), Zhou Jun(周军), Liu Ze-Jin(刘泽金), and Zhao Yi-Jun(赵伊君) The 260-W coherent beam combining of two compact fibre amplifier chains 2011 Chin. Phys. B 20 114203

[1] He B, Lou Q, Zhou J, Dong J, Wei Y, Xue D, Qi Y, Su Z, Li L and Zhang F 2006 Opt. Express 14 2721
[2] Peng Q, Sun Z, Chen Y, Guo L, Bo Y, Yang X and Xu Z 2005 Opt. Lett. 30 1485
[3] Li J F, Duan K L, Wang Y S, Zhao W and Guo Y K 2008 IEEE Photon. Tech. Lett. 20 888
[4] Shay T M, Benham V, Bake J T, Sanchez A D, Pilkington D and Lu A C A 2007 IEEE J. Sel. Top. Quantum Electron. 13 480
[5] Wang X L, Zhou P, Ma Y X, Ma H T, Xu X J, Liu Z J and Zhao Y J 2010 Acta Phys. Sin. 59 5474 (in Chinese)
[6] Zhou Pu, Ma Y X, Wang X L, Ma H T, Xu X J and Liu Z J 2010 Chin. Phys. B 19 024207
[7] Liu L, Vorontsov M A, Polnau E P, Weyrauch T and Leonid A B 2007 Proc. SPIE 6708 67080K
[8] Wang X L, Zhou P, Ma Y X, Ma H T, Xu X J, Liu Z J and Zhao Y J 2010 Chin. Phy. B 19 094202
[9] Goodno G D, Mcnaught S J, Rothenberg J E, Mccomb T S, Thielen P A, Wickham M G and Weber M E 2010 Opt. Lett. 35 1542
[10] Limpert J, Röser F, Klingebiel S, Schreiber T, Wirth C, Peschel T, Eberhardt R and Tünnermann A 2007 IEEE J. Sel. Top. Quantum Electron. 13 537
[11] Jeong Y, Nilsson J, Sahu J K, Payne D N, Horley R, Hickey L M B and Turner P W 2007 IEEE J. Sel. Top. Quantum Electron. 13 546
[12] Dawson J W, Messerly M J, Beach R J, Shverdin M Y, Stappaerts E A, Sridharan A K, Pax P H, Heebner J E, Siders C W and Barty C P J 2008 Opt. Express 16 13240
[13] Bellanger C, Paurisse M, Brignon A, Colineau J, Huignard J P, Hanna M, Druon F and Georges P 2010 Lasers and Electro-Optics (CLEO) and Quantum Electronics and Laser Science Conference (QELS) p. 1
[14] Goodno G D, Asman C P, Anderegg J, Brosnan S, Cheung E C, Hammo D, Injeyan H, Komine H, Long W H, Jr Mcclellan M, Mcnau S J, Redmond S, Simpson R, Sollee J, Weber M, Weiss S B and Wickham M 2007 IEEE J. Sel. Top. Quantum Electron. 13 460
[15] Jolivet V, Bourdon P, Bennai B, Lombard L, Goular D, Pourtal E, Canat G, Jaouen Y, Moreau B and Vasseur O 2009 IEEE J. Sel. Top. Quantum Electron. 15 257
[16] Shay T M, Benham V, Baker J T, Sanchez A D, Pilkington D and Lu C A 2007 IEEE J. Sel. Top. Quantum Electron. 13 480
[17] Vorontsov M A, Weyrauch T, Beresnev L A, Carhart G W, Liu L and Aschenbach K 2009 IEEE Journal of Selected Topics in Quantum Electronics 15 269
[18] Zhou P, Liu Z J, Wang X L, Ma Y X, Ma H T, Xu X J and Guo S F 2009 IEEE J. Sel. Top. Quantum Electron. 15 248
[19] Vorontsov M 2005 Proc. SPIE 5895 589501
[20] Zhou P, Ma Y X, Wang X L, Ma H T, Wang J H, Xu X J and Liu Z J 2009 Appl. Opt. 48 6537
[21] Zhou P, Wang X, Ma Y, Ma H and Liu Z 2010 Opt. Lett. 35 950
[22] Wang X L, Ma Y X, Zhou P, Ma H T, Li X, Xu X J and Liu Z J 2009 Laser Phys. 19 984
[23] Lombard L, Azarian A, Cadoret K, Bourdon P, Goular D, Canat G, Jolivet V, Jaou"en Y and Vasseur A O 2011 Opt. Lett. 36 523
[1] Distributed analysis of forward stimulated Brillouin scattering for acoustic impedance sensing by extraction of a 2nd-order local spectrum
Yu-Lian Yang(杨玉莲), Jia-Bing Lin(林佳兵), Li-Ming Liu(刘黎明), Xin-Hong Jia(贾新鸿), Wen-Yan Liang(梁文燕), Shi-Rong Xu(许世蓉), and Li Jiang(姜利). Chin. Phys. B, 2021, 30(8): 084205.
[2] A low-threshold multiwavelength Brillouin fiber laser with double-frequency spacing based on a small-core fiber
Lu-Lu Xu(徐路路), Ying-Ying Wang(王莹莹), Li Jiang(江丽), Pei-Long Yang(杨佩龙), Lei Zhang(张磊), and Shi-Xun Dai(戴世勋). Chin. Phys. B, 2021, 30(8): 084210.
[3] Brillouin gain spectrum characterization in Ge-doped large-mode-area fibers
Xia-Xia Niu(牛夏夏), Yi-Feng Yang(杨依枫), Zhao Quan(全昭), Chun-Lei Yu(于春雷), Qin-Ling Zhou(周秦岭), Hui Shen(沈辉), Bing He(何兵), and Jun Zhou(周军). Chin. Phys. B, 2021, 30(12): 124203.
[4] Suppression of auto-resonant stimulated Brillouin scattering in supersonic flowing plasmas by different forms of incident lasers
S S Ban(班帅帅), Q Wang(王清), Z J Liu(刘占军), C Y Zheng(郑春阳), X T He(贺贤土). Chin. Phys. B, 2020, 29(9): 095202.
[5] Polarization dependence of gain and amplified spontaneous Brillouin scattering noise analysis for fiber Brillouin amplifier
Kuan-Lin Mu(穆宽林), Jian-Ming Shang(商建明), Li-Hua Tang(唐丽华), Zheng-Kang Wang(王正康), Song Yu(喻松), Yao-Jun Qiao(乔耀军). Chin. Phys. B, 2019, 28(9): 094216.
[6] Effect of stimulated Brillouin scattering on the gain saturation of distributed fiber Raman amplifier and its suppression by phase modulation
Zhang Yi-Chi (张一弛), Chen Wei (陈伟), Sun Shi-Lin (孙世林), Meng Zhou (孟洲). Chin. Phys. B, 2015, 24(9): 094209.
[7] A simple model of suppressing stimulated Brillouin scattering in optical fiber with frequency-modulated laser
Hu Xiao-Yang (胡晓阳), Chen Wei (陈伟), Tu Xiao-Bo (涂晓波), Meng Zhou (孟洲). Chin. Phys. B, 2014, 23(12): 124208.
[8] Effect of water temperature on pulse duration and energy of stimulated Brillouin scattering
Zhang Lei (张磊), Zhang Dong (张东), Li Jin-Zeng (李金增). Chin. Phys. B, 2013, 22(7): 074207.
[9] Coherent beam combination of adaptive fiber laser array with tilt-tip and phase-locking control
Wang Xiong (王雄), Wang Xiao-Lin (王小林), Zhou Pu (周朴), Su Rong-Tao (粟荣涛), Geng Chao (耿超), Li Xin-Yang (李新阳), Xu Xiao-Jun (许晓军), Shu Bo-Hong (舒柏宏). Chin. Phys. B, 2013, 22(2): 024206.
[10] A new method for measuring the threshold of stimulated Brillouin scattering
Zhu Xue-Hua(朱学华), LŰ Zhi-Wei(吕志伟) and Wang Yu-Lei(王雨雷) . Chin. Phys. B, 2012, 21(7): 074205.
[11] A 168-W high-power single-frequency amplifier in an all-fiber configuration
Xiao Hu(肖虎), Dong Xiao-Lin(董小林), Zhou Pu(周朴), Xu Xiao-Jun(许晓军), and Zhao Guo-Min(赵国民) . Chin. Phys. B, 2012, 21(3): 034207.
[12] Stimulated Brillouin scattering-induced phase noise in an interferometric fiber sensing system
Chen Wei(陈伟), Meng Zhou(孟洲), Zhou Hui-Juan(周会娟), and Luo Hong(罗洪) . Chin. Phys. B, 2012, 21(3): 034212.
[13] Bursting behaviours in cascaded stimulated Brillouin scattering
Liu Zhan-Jun(刘占军), He Xian-Tu(贺贤土), Zheng Chun-Yang(郑春阳), and Wang Yu-Gang(王宇钢) . Chin. Phys. B, 2012, 21(1): 015202.
[14] High power tandem pumping fibre amplifier
Xiao Hu(肖虎), Wu Wu-Ming(吴武明), Xu Jiang-Ming(许将明), Zhou Pu(周朴), and Xu Xiao-Jun(许晓军) . Chin. Phys. B, 2011, 20(11): 114208.
[15] Coherent beam combining of hybrid phase control in master oscillator-power amplifier configuration
Wang Xiao-Lin(王小林), Zhou Pu(周朴), Ma Yan-Xing(马阎星), Ma Hao-Tong(马浩统), Xu Xiao-Jun(许晓军), Liu Ze-Jin(刘泽金), and Zhao Yi-Jun(赵伊君). Chin. Phys. B, 2010, 19(9): 094202.
No Suggested Reading articles found!