[1] T. Y. Fan,Laser beam combining for high-power,high-radiance sources[J]. IEEE J. Sel. Top. Quantum. Electron,2005,11(3):567-577
[2] J. Anderegg,S. Brosnan,E. Cheung et al.. Coherently coupled high power fiber arrays[C]. SPIE,2006,6102:61020U-1-5
[3] Northrop Grumman Scales New Heights in Electric Laser Power,Achieves 100 Kilowatts From a Solid-State Laser[EB/OL].(2009-03-18) [2009-03-24] http://www.irconnect.com/noc/press/pages/news_releases.html d=161575
[6] Q. H. Lou,J. Zhou,B. He et al.. Fiber lasers and their coherent beam combination[J]. Optics Photonics News,2008,19(5):46-51
[7] R. Xiao,J. Hou,M. Liu et al.. Coherent combining technology of master oscillator power amplifier fiber arrays[J]. Opt. Express,2008,16(3):2015-2022
[8] Northrop Grumman Introduces Vesta a Compact,High-Power,Excellent Beam Quality Solid-State Laser for Multiple Military Missions [EB/OL]. (2006-10-25) [2008-10-1] http://www.irconnect.com/noc/press/pages/news_releases.mhtml d =107455
[9] G. D. Goodno,C. P. Asman,J. Anderegg et al.. Brightness-scaling potential of actively phase-locked solid-state laser arrays[J]. IEEE J. Sel. Top Quantum. Electron,2007,13(3):460-472
[10] Northrop Grumman Scores Biggest Successes Yet for Solid-State Laser Weapon Production by Industry [EB/OL]. (2008-9-2)[2008-10-1]http://www.irconnect.com/noc/press/pages/news_releases.html d=149444
[11] J. Marmo,H. Injeyan,H. Komine etal.. Joint high power solid state laser program advancements northrop grumman[C]. SPIE,2009,7195:719507-1-6
[12] B. Li,B. Lü. Characterization of off-axis superposition of partially coherent beams[J]. J. Opt. A:Pure Appl. Opt,2003,5:303-307
[13] B. Lü,H. Ma. Coherent and incoherent combinations of off-axis Gaussian beams with rectangular symmetry[J]. Opt. Commun.,1999,171,185-194
[14] X. Ji,E. Zhang,B. Lü. Superimposed partially coherent beams propagating through atmospheric turbulence[J]. J. Opt. Soc. Am. B,2008,25(5):825-833
[15] X. Ji,X. Li. Influence of turbulence on the coherent and incoherent combinations of off-axis Gaussian beams[J]. Acta Physica Sinica,2008,57(12):7674-7679
[16] Y. Zhu,D. Zhao,Du X. Propagation of stochastic Gaussian-Schell model array beams in turbulent atmosphere[J]. Opt. Express,2008,16(22):18437-18442
[17] E. Zhang,X. Ji,B. Lü. Propagation of the off-axis superposition of partially coherent beams through atmospheric turbulence[J]. Chin. Phys. B.,2009,18(2):571-580
[18] Y. Cai,Y. Chen,H. T. Eyyuboglu et al.. Propagation of laser array beams in a turbulent atmosphere[J]. App. Phy. B,2007,88:467-475
[19] X. Chu,Z. Liu,Y. Wu. Propagation of a general multi-Gaussian beam in turbulent atmosphere in a slant path[J]. J. Opt. Soc. Am. A,2008,25(1):74-79
[20] A. Starikov,E. Wolf. Coherent-mode representation of Gaussian Schell-model sources and their radiation fields[J]. J. Opt. Soc. Am,1982,72(7):923-928
[21] C. D. Nabors. Effects of phased errors on coherent emitter arrays[J]. Appl. Opt.,1994,33(12):2284-2289
[22] D. S. Elliot,R. Roy,S. J. Smith. Extracavity laser band-shape and bandwidth modification[J]. Phys. Rev. A,1982,26(1):12-18
[23] M. J. Bastianns. Application of the Wigner distribution function to partially coherent light[J]. J. Opt. Soc. Am. A,1986,3(8):1227-1238
[24] Lü Baida. Laser Optics(3rd ed)[M]. Beijing:Higher education press,2003
[25] Architecture for Diode High Energy Laser Systems[EB/OL]. (2008-8-10)[2009-1-5] http://www.darpa.mil/mto/programs/adhels/index.htm
[27] P. Zhou,Z. Liu,X. Xu et al.. Numerical analysis of the effects of aberrations on coherently combined fiber laser beams[J]. Appl. Opt.,2008,47(18):3350-3359