[1] [1] L.H.Enloe,J.L.Rodda.Laser phase-locked loop [C].Proc.IEEE,1965,53:165-166

[2] [2] H.L.Stover,W.H.Steier.Locking of laser oscillators by light injection[J].Appl.Phys.Lett.,1966,8(4):91-93

[3] [3] C.J.Buczek,R.J.Freiberg.Hybrid injection locking of higher power CO2 lasers [J].IEEE J.Quantum Electron.,1972,8(7):641-650

[4] [4] D.G.Youmans.Phase locking of adjacent channel leaky waveguide CO2 lasers [J].Appl.Phys.Lett.,1984,44(4):365-367

[5] [5] L.A.Newman,R.A.Hart,J.T.Kennedy et al..High power coupled CO2 waveguide laser array [J].Appl.Phys.Lett.,1986,48(25):1701-1703

[6] [6] D.J.Spencer,H.Mirels,T.A.Jacobs et al..Continuous-Wave Chemical Laser:US,3688215[P],1972

[7] [7] V.V.Antyukhov,A.F.Glova,O.R.Kachurin et al..Effective phase locking of an array of laser [J].1986,44:78-80

[8] [8] A.F.Glova.Phase locking of optically coupled lasers [J].Quantum.Electron.,2003,33(4):283-306

[9] [9] O.R.Kachurin,F.V.Lebedev,A.P.Napartovich.Properties of an array of phase-locked CO2 lasers [J].Sov.J.Quantum Electron.,1988,18(9):1128-1131

[10] [10] A.F.Glova.CO2 lasers excited with a capacitive ac discharge [J].Laser Physics,2000,10(5):975-993

[11] [11] A.A.Golubentsev,O.P.kachurin,F.V.Lebedev.Use of a spatial filter for phase locking of a laser array [J].Sov.J.Quantum Electron.,1990,20(8):934-937

[12] [12] V.V.Vasil′tsov,Y.V.Zelenov,Y.A.Kurushin et al..Synchronization of high-power CO2 lasers [C].SPIE,1993,2109:107

[13] [13] V.V.Vasil′tsov,V.S.Golubev,Y.V.Zelenov et al..Using diffraction optics for formation single-lobe far-field beam intensity distribution in waveguide CO2-lasers synchronized arrays [C].SPIE,1993,2109:122-128

[14] [14] I.V.Bahanov,A.F.Glova,E.A.Lebedev.Output characteristics of the MKL-10 multichannel CO2 laser [J].Quantum Electron.,1993,23(3):184-185

[15] [15] A.F.Glova,S.V.Drobyazko,V.V.Likhanskii.Multi-beam CO2 lasers and theirs applications[C].CAOL,2005.43-46

[16] [16] A.F.Glova,A.Yu.Lysikov,E.I.Musena.Phase locking of 2D laser arrays by the spatial filter method [J].Quantum Electron.,2002,32(3):277-278

[17] [17] G.L.Bourdet,Y.B.Andre,R.A.Müller et al..100 W RF excited phased array of self-focusing waveguide CO2 laser [C].Conference on Laser and Electro-Optics,San Diego,1991

[18] [18] K.M.Abramski,A.D.Colley,H.J.Baker et al..Phase-locked CO2 laser array using diagnoal coupling of waveguide channels [J].Appl.Phys.Lett.,1990,60(5):530-532

[19] [19] A.M.Hornby,H.J.Baker,A.D.Colley et al..Phase locking of linear arrays of CO2 waveguide lasers by the waveguide confined Talbot effect[J].Appl.Phys.Lett.,1993,63(19):2591-2593

[20] [20] A.M.Hornby,H.J.Baker,D.R.Hall.Combined array/slab waveguide CO2 lasers [J].Opt.Commun.,1994,108:97

[21] [21] E.F.Yelden,H.J.J.Seguin,C.E.Capjack et al..Phase-locking phenomena in a radial multislot CO2 laser array [J].J.Opt.Soc.Am.B,1993,10(8):1475-1482

[22] [22] K.Schrder,A.Müller,D.Schucker.Phase locking of CO2 lasers by the use of diffraction effects [J].Appl.Opt.,1995,34(26):8252-8259

[23] [23] W.Weingartner,K.Schrder,D.Schucker.Active length control of two phase locked CO2 lasers with a digital signal processor [J].Review of Scientific Instruments,2000,71(9):3298-3305

[24] [24] Y.Xu,Y.Li,T.Feng et al..Phase-locking principle of axisymmetric structural CO2 laser and theoretical study of the influences of parameters-changes on phase-locking [J].J.Opt.Soc.Am.B,2008,25(8):1303-1311

[25] [25] D.J.Spencer,T.A.Jacobs,H.Mirels et al..Continuous-wave chemical laser [J].International J.Chemical Kinetics,1969,1(5):493-494

[26] [26] D.J.Spencer,H.Mirels,T.A.Jacobs et al..Continuous-wave chemical laser: US,3688215[P],1972

[27] [27] C.P.Wang.Master and slave oscillator array system for very large multiline lasers [J].Appl.Opt.,1978,17(1):83-86

[28] [28] C.P.Wang,P.L.Smith.Phase control of HF chemical lasers for coherent optical recombination [J].Appl.Opt.,1979,18(9):1322-1327

[29] [29] J.W.Hardy.Adptive optics:a new technology for the control of light [C].Proc.IEEE,1978,66(6):651-697

[30] [30] G.Coffer,J.M.Bernard,R.A.Chodzko et al..Experiments with active phase matching of parallel-amplified multiline HF laser beams by a phase-locked Mach-Zehnder interferometer[J].Appl.Opt.,1983,22(1):142-148

[31] [31] C.P.Wang,P.L.Smith.Charged-large-array-flexible mirror [J].Appl.Opt.,1985,24(12):1838-1843

[32] [32] A.D.Schnurr,S.Meisenholder,M.Litvak et al..Phased Array Laser System (PALS) [R].ADA169635,1986

[33] [33] M.T.Duignan,B.J.Feldman,W.T.Whitney.Stimulated Brillouin scattering and phase conjugation of hydrogen fluoride laser radiation [J].Opt.Lett.,1987,12(2):111-113

[34] [34] W.T.Whitney,M.T.Duignan,B.J.Feldman.Stimulated Brillouin scattering and phase conjugation of multiline hydrogen fluoride laser radiation [J].J.Opt.Soc.Am.B,1990,7(11):2160-2168

[35] [35] W.T.Whitney,M.T.Duignan,B.J.Feldman.Stimulated Brillouin scattering phase conjugation of an amplified hydrogen fluoride laser beam [J].Appl.Opt.,1992,31(6):699-703

[36] [36] J.M.Bernard,R.A.Chodzko,J.G.Coffer.Master oscillator with power amplifiers:performance of a two-element cw HF phased laser array [J].Appl.Opt.,1989,28(21):4543-4547

[37] [37] J.M.Bernard,R.A.Chodzko,H.Mirels.Mutual coherence of two coupled multiline continuous-wave HF lasers [J].Opt.Lett.,1987,12(11):897-899

[38] [38] J.M.Bernard,R.A.Chodzko,H.Mirels.Coupled multiline CW HF lsers:experimental performance [J].AIAA Journal,1988,26(11):1369

[39] [39] G.Koop,B.Bendow,D.Dee et al..Advanced Phased Array Chemical High Energy (APACHE) laser Program [R].ADA035153,1990

[40] [40] Ren Guoguang.Review of significant adjustment of American space-based laser program [J].Laser & Infrared,2003,33(3):163-166

[41] [41] Ren Guoguang,Huang Jijin.Major progress of U.S.2005′ high-energy laser technology [J].Laser & Optoelectronics Progress,2006,43(6):3-9

[42] [42] Northrop Grumman Coporation [EB/OL] http://www.st.northropgrumman.com

[43] [43] Ren Guoguang.Current situation and development trend of high energy laser weapon [J].Laser & Optoelectronics Progress,2008,45(9):62-69

[44] [44] J.E.Ripper,T.L.Paoli.Optical coupling of adjacent stripe-geometry junction lasers [J].Appl.Phys.Lett.,1970,17(9):371-373

[45] [45] E.M.Philipp-Rutz.Spatially coherent radiation from an array of GaAs lasers [J].Appl.Phys.Lett.,1975,26(8):475-477

[46] [46] E.M.Philipp-Rutz.Single laser beam of spatial coherence from an array of GaAs lasers:free-running mode [J].J.Appl.Phys.,1975,46(10):4554-4556

[47] [47] D.R.Scifres,R.D.Burnham,W.Streifer.Phase-locked semiconductor laser array [J].Appl.Phys.Lett.,1978,33(12):1015--1017

[48] [48] J.Katz,S.Margalit,A.Yariv.Diffraction coupled phase-locked semiconductor laser array [J].Appl.Phys.Lett.,1983,42(7):554-556

[49] [49] J.K.Butler,D.E.Ackley,D.Botez.Coupled-mode analysis of phase-locked injection laser arrays [J].Appl.Phys.Lett.,1984,44(3):293-295

[50] [50] Y.Twu,A.Dienes,S.Wang et al..High power coupled ridge waveguide semiconductor laser arrays [J].Appl.Phys.Lett.,1984,45(7):709-711

[51] [51] J.R.Leger,G.J.Swanson,M.Holz.Efficient side lobe supression of laser diode arrays [J].Appl.Phys.Lett.,1987,50(16):1044-1046

[52] [52] J.R.Leger,M.L.Scott,W.B.Veldkamp.Coherent addition of AlGaAs lasers using microlenses and diffractive coupling [J].Appl.Phys.Lett.,1988,52(21):1771-1773

[53] [53] M.Jansen,J.J.Yang,S.S.Ou et al..Diffraction-limited operation from monolithically integrated diode laser array and self-imaging (Talbot) cavity [J].Appl.Phys.Lett.,1989,55(19):1949-1951

[54] [54] J.P.Hobimer,D.R.Myer,T.M.Brennan et al..Integrated injection-locked high-power CW diode laser arrays [J].Appl.Phys.Lett.,1989,55(6):531-533

[55] [55] J.R.Leger,M.P.Griswold.Binary-optics miniature talbot cavities for laser beam combination [J].Appl.Phys.Lett.,1990,56(1):4-6

[56] [56] C.J.Corcoran,R.H.Redike.Operation of five individual diode lasers as a coherent ensemble by fiber coupling into an external cavity [J].Appl.Phys.Lett.,1991,59(7):759-761

[57] [57] W.Wang,K.Nakagawa,S.Sayama.Coherent addition of injection-locked high-power AlGaAs diode lasers [J].Opt.Lett.,1992,17(22):1593-1595

[58] [58] J.Buus,P.J.Williams,I.Goodridge et al..Surface-emitting two-dimensional coherent semiconductor laser array [J].Appl.Phys.Lett.,1989,55(4):331-333

[59] [59] S.Sanders,R.Waarts,D.Nam et al..High power coherent two-dimensional semiconductor laser array [J].Appl.Phys.Lett.,1994,64(12):1478-1480

[60] [60] K.H.No,R.J.Blackwell,Robert W.Herrick.Monolithic integration of an amplifier and a phase modulator fabricated in a GRINSCH-SQW structure by placing the junction below the quantum well [J].IEEE Photon.Tech.Lett.,1993,5(9):990-993

[61] [61] J.S.Osinski,D.Mehuys,D.F.Welch.Phased array of high-power,coherent,monolithic flared amplifier master oscillator power amplifiers [J].Appl.Phys.Lett.,1995,66(5):556-558

[62] [62] K.H.No,R.W.Herrick,C.Leung et al..One dimensional scaling of 100 ridge waveguide amplifiers [J].IEEE Photon.Tech.Lett.,1994,6(9):1062-1064

[63] [63] K.H.No,R.W.Herrick,C.Leung et al..Two dimensional scaling of ridge waveguide amplifiers [C].SPIE,1994,2148:80-90

[64] [64] D.Krebs,R.Herrick,K.No et al..22 W coherent GaAlAs amplifier array with 400 emitters [J].IEEE Photon.Tech.Lett.,1991,3(4):292-295

[65] [65] J.Levy,K.Roh.Coherent array of 900 semiconductor laser amplifiers[C].SPIE,1995,2382:58-69

[66] [66] P.Rudy.The best defense is a bright diode laser [J].Photonics Spectra,2005,39(12):30-33

[67] [67] Coherently-Combined High-Power Single-Mode Emitters (COCHISE) [EB/OL] http://www.mtosymposium.org/2007/posters/Energy/48_Mangano_COCHISE.pdf[2009-12-27]

[68] [68] Architecture for Diode High Energy Laser Systems (ADHELS) [EB/OL] http://www.mtosymposium.org/2007/posters/Energy/47_Mangano_ADHELS.pdf[2009-12-27]

[69] [69] C.M.Stickley.Architecture for diode high energy laser systems [EB/OL] http://www.darpa.mil/mto/programs/adhels/index.htm[2009-12-27]

[70] [70] M.Valley,G.Lombardi,R.Aprahamian.Beam combination by stimulated Brillouin scattering [J].J.Opt.Soc.Am.B,1986,3(10):1492-1497

[71] [71] D.A.Rockwell,C.R.Giuliano.Coherent coupling of laser gain media using phase conjugation [J].Opt.Lett.,1986,11(3):147-149

[72] [72] R.H.Moyer,M.Valley,M.C.Cimolino.Beam combination through stimulated Brillouin scattering [J].J.Opt.Soc.Am.B,1988,5(12):2473-2489

[73] [73] D.L.Carroll,R.Johnson,S.J.Pfeifer et al..Experimental investigations of stimulated Brillouin scattering beam combination [J].J.Opt.Soc.Am.B,1992,9(12):2214-2224

[74] [74] R.A.Lamb,M.J.Damzen.Phase locking of multiple stimulated Brillouin scattering by a phase-conjugate laser resonator [J].J.Opt.Soc.Am.B,1996,13(7):1468-1472

[75] [75] M.Oka,H.Masuda,Y.Kaneda et al..Laser-diode-pumped phase-locked Nd:YAG laser arrays [J].IEEE J.Quantum Electron.,1992,28(4):1142-1147

[76] [76] Y.Kono,M.Takeoka,K.Uto et al..A coherent all-solid-state laser array using the talbot effect in a three-mirror cavity [J].IEEE J.Quantum Electron.,2000,36(5):607-614

[77] [77] D.Sabourdy,V.Kermene,A.Desfarges-Berthelemot et al..Coherent combining of two Nd:YAG lasers in a Vernier-Michelson-type cavity [J].Appl.Phys.B,2002,75(4-5):503-507

[78] [78] Y.Zhou,L.Liu,C.Etson et al..Phase locking of a two-dimensional laser array by controlling the far-field pattern [J].Appl.Phys.Lett.,2004,84(16):3025-3027

[79] [79] D.S.Sumida,D.C.Jones,D.A.Rockwell.An 8.2 J phase-conjugate solid-state laser coherently combining eight parallel amplifiers [J].IEEE J.Quantum Electron.,1994,30(11):2617-2627

[80] [80] L.Shimshi,A.A.Ishaaya,V.Eckhouse et al..Upscaling coherent addition of laser distributions[J].Opt.Commun.,2007,275:389-393

[81] [81] I.S.Goldobin,N.N.Evtikhiev,A.G.Plyavenek et al..Phase-locked integrated arrays of injection lasers [J].Sov.J.Quantum Electron.,1989,19(10):1261-1284

[82] [82] A.P.Napartovich.Phase-locking of laser arrays:problems and solutions [C].SPIE,2000,4065:748-758

[83] [83] C.Bellanger,A.Brignon,J.Colineau et al..Coherent fiber combining by digital holography [J].Opt.Lett.,2008,33(24):2937-2939

[84] [84] L.Liu.Analysis and Experimental Demonstration of Conformal Adaptive Phase-Locked Fiber Array for Laser Communications and Beam Projection Applications [D].Maryland:University of Maryland,2008

[85] [85] J.Falk,M.Kanefsky,P.Suni.Limits to the efficiency of beam combination by stimulated Brillouin scattering [J].Opt.Lett.,1988,13(1):13-15

[86] [86] S.Sternklar,D.Chomsky,S.Jackel et al..Misalignment sensitivity of beam combining by stimulated Brillouin scattering [J].Opt.Lett.,1990,15(9):469-470

[87] [87] B.C.Rodgers,T.H.Russell,W.B.Roh.Laser beam combining and cleanup by stimulated Brillouin scattering in a multimode optical fiber [J].Opt.Lett.,1999,24(16):1124-1126

[88] [88] A.Desfarges-Berthelemot,V.Kermene,D.Sabourdy et al..Coherent combining of fiber lasers [J].C.R.Physique,2006,7:244-253

[89] [89] N.M.Lyndin,V.A.Sychugov,A.E.Tikhomirov et al..Laser system composed of several active elements connected by single-mode couplers [J].Quantum Electron.,1994,24:1058

[90] [90] V.A.Kozlov,J.H.Cordero,T.F.Morse.All-fiber coherent beam combining of fiber lasers [J].Opt.Lett.,1999,24(24):1814-1816

[91] [91] P.K.Cheo,A.Liu,G.G.King.A high-brightness laser beam from phase-locked multicore Yb-doped fiber laser array [J].Photonics Tech.Lett.,2001,13(5):439-441

[92] [92] Electro-Optical integrated circuits (ICs) and components.[EB/OL] http://www.eospace.com[2009-12-27]

[93] [93] S.J.Augst,T.Y.Fan,A.Sanchez.Coherent beam combining and phase noise measurements of ytterbium fiber amplifiers [J].Opt.Lett.,2004,29(5):474-476

[94] [94] Acousto-Optic components.[EB/OL] http://www.brimrose.com[2009-12-27]

[95] [95] J.Anderegg,S.Brosnan,M.Weber et al..8-watt coherently phased 4-element fiber array [C].SPIE,2003,4974:1-5

[96] [96] S.J.Augst,T.Y.Fan,A.Sanchez.Coherent beam combining of ytterbium fiber laser amplifiers [C].Conference on Lasers and Electro-Optics,2003

[97] [97] H.Bruesselbach,M.L.Minden,S.Q.Wang et al..A coherent fiber array based laser link for atmospheric aberration mitigation and power scaling [C].SPIE,2004,5338:90-101

[98] [98] M.Mangir,H.Bruesselbach,M.Minden et al..Atmospheric aberration mitigation and transmitter power scaling using a coherent fiber array[C].IEEE Aerospace Conference Proceedings,2004.1745-1750

[99] [99] J.Anderegg,S.Brosnan,E.Cheung et al..Coherently coupled high power fiber arrays[C].SPIE,2006,6102:61020U

[100] [100] T.M.Shay,V.Benham,L.J.Spring et al..Self-referenced locking of optical coherence by single-detector electronic-frequency tagging [C].SPIE,2006,6102:61020V

[101] [101] G.D.Goodno,H.Komine,S.J.McNaught et al..Coherent combination of high-power,zigzag slab lasers [J].Opt.Lett.,2006,31(9):1247-1249

[102] [102] Northrop Grumman Space Technology,El Segundo,CA,[EB/OL].http://www.irconnect.com/noc/press/pages/news_releases.html d=149444[2009-12-27]

[103] [103] J.Marmo,H.Injeyan,H.Komine et al..Joint high power solid state laser program advancements Northrop Grumman[C].SPIE,2009,7195:719507

[104] [104] Northrop Grumman Space Technology,El Segundo,CA,[EB/OL] http://www.irconnect.com/noc/press/pages/news_releases.html d=161575[2009-12-27]

[105] [105] Wang Shuangyi,Lin Dianyang,Wang Chao et al..Recent progress of fiber beam combination[J].Laser Technology,2005,29(6):657-661

[106] [106] Li Yongzhong,Fan Dianyuan.Beam combining of fiber lasers[J].Laser& Optoelectronics Progress,2005,42(9):26-29

[107] [107] Xiao Rui,Hou Jing,Jiang Zongfu.Coherent beam combining technology of fiber lasers[J].Laser Technology,2005,29(5):516-518

[108] [108] Zhao Shuai,Fan Wande,Sheng Qiuqin.The research of coherent combining of fiber laser[J].Laser & Infrared,2006,36(10):921-924

[109] [109] Lou Qihong,He Bing,Zhou Jun.Fiber lasers and it′s coherent beam combination[J].Infrared and Laser Engineering,2007,36(2):155-159

[110] [110] Wu Bo,Liu Yongzhi.Coherent combination of high power fiber laser beams[J].Laser & Optoelectronics Progress,2007,43(8):56-61

[111] [111] Cheng Yong,Liu Yang,Xu Lixin.Recent progresses and development of fiber laser combining technology[J].Infrared and Laser Engineering,2007,36(2):163-166

[112] [112] T.M.Shay,J.T.Baker,A.D.Sanchez et al..High power phase locking of a fiber amplifier array [C].SPIE,2009,7195:71951M

[113] [113] J.Limpert,Fabian Rser,S.Klingebiel et al..The rising power of fiber lasers and amplifiers [J].IEEE J.Sel.Top.Quantum Electron.,2007,13(3):537-545

[114] [114] Towards 100 kW fiber laser systems [EB/OL].http://www.crystalfiber.com[2006-06-10]

[115] [115] Y.Jeong,J.Nilsson,J.K.Sahu et al..Power scaling of single-frequency ytterbium-doped fiber master-oscillator power-amplifier sources up to 500 W [J].IEEE J.Sel.Top.Quantum Electron.,2007,13(3):546-551

[116] [116] G.D.Goodno,L.D.Book,J.E.Rothenberg.Low-phase-noise,single-frequency,single-mode 608 W thulium fiber amplifier[J].Opt.Lett.,2009,34(8):1204-1206

[117] [117] D.C.Jones,A.J.Turner,A.M.Scott et al..A multi-channel phase locked fibre bundle laser [C].SPIE,2010,7580:75801V

[118] [118] G.D.Goodno,S.J.McNaught,J.E.Rothenberg et al..Active phase and polarization locking of a 1.4 kW fiber amplifier [J].Opt.Lett.,2010,35(10):1542-1544

[119] [119] V.Khitrov,K.Farley,R.Leveille et al..kW Level narrow linewidth Yb fiber amplifiers for beam combining [R].Photonics West 2010

[120] [120] NukW:Kilowatt laser amplifier platform [EB/OL].http:∥www.nufern.com/kilowatt-amp.php[2009-12-28]

[121] [121] Y.Ma,P.Zhou,X.Wang et al..Coherent beam combination with single frequency dithering technique [J].Opt.Lett.,2010,35(9):1308-1310

[122] [122] Dominic Faucher,Martin Bernier,Nicolas Caron et al..Erbium-doped all-fiber laser at 2.94 μm [J].Opt.Lett.,2009,34(21):3313-3315

[123] [123] S.D.Jackson.High-power erbium cascade fibre laser [J].Electron.Lett.,2009,45(16):830-832

[124] [124] Army FY10A-Coherent Beam Combining of Mid-IR Lasers [EB/OL].http:∥www.zyn.com/sbir/sbres/sttr/dod/army/army10-007.htm[2009-12-28]

[125] [125] G.Bloom,C.Larat,E.Lallier et al..Coherent combining of two quantum-cascade lasers in a Michelson cavity [J].Opt.Lett.,2010,35(11):1917-1919

[126] [126] T.McComb,L.Shah,R.A.Sims et al..High power,tunable thulium fiber laser system for atmospheric propagation experiments[C].Conf.Lasers Electro-Opt.,2009

[127] [127] T.Ehrenreich,R.Leveille,I.Majid et al..1-kW,All-glass Tm:fiber laser[C].SPIE,2010,7580:16

[128] [128] P.F.Moulton,G.A.Rines,E.V.Slobodtchikov et al..Tm-doped fiber lasers:fundamentals and power scaling[C].IEEE J.Sel.Top.Quantum Electron.,2009,15(1):85-92

[129] [129] P.F.Moulton.Power Scaling of Tm:fiber Lasers to the kW Level [EB/OL].http:∥www.9-peak.com[2010-06-10]

[130] [130] Z.Chen,J.Hou,P.Zhou et al..Mutual injection locking and coherent combining of two individual fiber lasers [J].IEEE J.Quantum Electron.,2008,44(6):515-519

[131] [131] Liu Zejin,Zhou Pu,Hou Jing et al..Research of coherent beam combining using actively phase-controlling[J].Chinese J.Lasers,2009,36(3):518-524

[132] [132] Zhou Pu,Liu Zejin,Ma Yanxing et al..Simulation and experimental investigation on coherent beam combining of two fiber amplifiers based on stochastic parallel gradient descent algorithm [J].Acta Optica Sinaca,2009,29(2):431-436

[133] [133] Liang Yonghui,Wang Sanhong,Long Xuejun et al..Experimental explorations of the laser beam cleanup system based on stochastic parallel-gradient-descent algorithm[J].Acta Optica Sinica,2008,28(4):613-618

[134] [134] Wang Sanhong,Liang Yonghui,Long Xuejun et al..Experimental research for real-time beam cleanup in turbulence based on stochastic parallel-gradient-descent method[J].Acta Optica Sinica,2009,29(3):582-586

[135] [135] Zhou Pu,Ma Yanxing,Wang Xiaolin et al..Dynamical simulation and control bandwidth analysis on coherent beam combining of fiber amplifiers based on stochastic parallel gradient descent algorithm[J].Chinese J.Lasers,2009,36(11):2972-2977

[136] [136] I.Dajani,C.Zeringue,T.Shay.Investigation of nonlinear effects in multitone-driven narrow-linewidth high-power amplifiers [J].IEEE J.Sel.Top.Quantum Electron.,2009,15(2):406-414

[137] [137] P.Zhou,Y.Ma,X.Wang et al..Coherent beam combination of three two-tone fiber amplifiers using stochastic parallel gradient descent algorithm [J].Opt.Lett.,2009,34(19):2939-2941

[138] [138] X.Wang,P.Zhou,Y.Ma et al..Coherent combining of multi-wavelength fiber amplifiers using a stochastic parallel gradient descent algorithm [J].J.Opt.,2010,12(7):075701

[139] [139] Fiber Laser Pulse Source Project [EB/OL] https:∥www.fbo.gov/index s=opportunity&mode=form&tab=core&id=9e5d9751405cdc7895e316b1299480b7&_cview=1[2010-06-10]

[140] [140] Wang Xiaolin,Zhou Pu,Xu Xiaojun et al..Coherent beam combination of pulsed fiber lasers [J].Laser & Optoelectronics Progress,2009,46(5):13-23

[141] [141] S.Jiang,M.Hanna,F.Druon et al..Impact of self-phase-modulation on coherently combined fiber chirped-pulse amplifiers[J].Opt.Lett.,2010,35(8):1293-1295

[142] [142] Y.Feng,L.R.Taylor,D.B.Calia.150 W highly-efficient Raman fiber laser[J].Opt.Express,2009,17(26):23678-23683

[143] [143] Y.Feng,L.Taylor,D.B.Calia.25 W Raman-fiber-amplifier-based 589 nm laser for laser guide star [J].Opt.Express,2009,17(21):19021-19026

[144] [144] L.R.Taylor,Y.Feng,D.B.Calia.50 W CW visible laser source at 589 nm obtained via frequency doubling of three coherently combined narrow-band Raman fibre amplifiers[J].Opt.Express,2010,18(8):8540-8555

[145] [145] R.S.Kurti,K.Halterman,R.K.Shori et al..Discrete cylindrical vector beam generation from an array of optical fibers [J].Opt.Express,2009,17(16):13982-13988