[1] Lü Baida. Laser Optics［M］. Beijing: High Education Press, 2003. 75～78

[2] A. E. Siegman. New developments in laser resonators［C］. SPIE,1990, 1224: 1～14

[3] A. E. Siegman. High-power laser beams: defining, measuring and optimizing transverse beam quality［C］. SPIE, 1992, 1810: 758～765

[4] H. Weber. Special issue on laser beam quality［J］. Opt. & Quantum Electron., 1992, 24(9): 861～1135

[5] The international organization for standardization. ISO11146-1-2005 laser and laser-related equipment-Test methods for laser beam widths, divergence angles and beam propagation ratios-part 1: Stigmatic and simple astigmatic beams[S]. Switzerland, 2005

[6] A. E. Siegman. How to (maybe) measure laser beam quality［J］. OSA Trends in Optics and Photonics Series, 1998, 17(2): 184～199

[7] Lü Baida, Kang Xiaoping. Some aspects of laser beam quality［J］. Infrared and Engineering, 2007, 36(1): 47～51

[8] Feng Guoying, Zhou Shouhuan. Discussion of comprehensive evaluation on laser beam quality［J］. Chinese J. Lasers, 2009, 36(7): 1643～1653

[9] Qian Liejia, Fan Dianyuan, Zhang Zhuhong et al.. On some basic issues related to light beam quality［J］. Chinese J. Lasers, 1994, 21(12): 981～987

[10] Su Yi, Wan min. High Energy Laser System［M］. Beijing: Defense Industry Press, 2003. 42～50

[11] Du Xiangwan. Factors for evaluating beam quality of a real high power laser on the target surface in the far field［J］. Chinese J. Lasers, 1997, 24(4): 327～332

[12] Du Xiangwan. Factors influencing key characteristic quality of high energy laser system［J］. High Power Laser and Particle Beams, 2010, 22(5): 945～947

[13] Cheng Xiaofeng. Analysis of evaluating standard for ring beam′s beam quality［J］. Laser Journal, 1995, 16(5): 209～212

[14] Virendra N. Mahajan. Strehl ratio for primary aberrations: some analytical results for circular and annular pupils［J］. J. Opt. Soc. Am., 1982, 72(9): 1258～1266

[15] Xian Hao, Jiang Wenhan. The relation between wavefront aberration and the beam quality factor［J］. Chinese J. Lasers, 1999, 26(5): 415～419

[16] Liu Zejin, Zhou Pu, Xu Xiaojun, Study on universal standard for evaluating high energy beam quality［J］. Chinese J. Lasers, 2009, 36(4): 773～778

[17] Pu Zhou, Zejin Liu, Xiaojun Xu et al.. Numerical analysis of the effects of aberrations on coherently fiber laser beams［J］. Appl. Opt., 2008, 47(18): 3350～3359

[18] Liu Zejin, Lu Qisheng, Zhao Yijun. Study of evaluating beam quality of high energy lasers with unstable resonators［J］. Chinese J. Lasers, 1998, 25(3): 193～196

[19] T. Sean Ross. Appropriate measures and consistent standard for high-energy laser beam quality[J]. J. Directed Energy, 2006, 2: 22～58

[20] R. Martinez-Herrero, P. M. Mejias. Second-order spatial characterization of hard-edge diffracted beams［J］. Opt. Lett., 1993, 18(19): 1669～1671

[21] R. Martinez-Herrero, P. M. Mejias, M. Arias. Parametric characterization of coherent, lowest-order Gaussian beams propagation through hard-edged apertures［J］. Opt. Lett., 1995, 20(2): 124～126

[22] C. Pare, P. A. Belanger. Propagation law and quasi-invariance properties of the truncated second-order moment of a diffracted laser beam［J］. Opt. Commun, 1996, 123: 679～693

[23] S. Amarande, A. Giesen, H. Hugel. Propagation analysis of self-convergent beam width and characterization of hard-edge diffracted beams［J］. Appl. Opt., 2000, 39(22): 3914～3924

[24] Lü Baida. Recent developments in novel high-power solid-state laser drivers for application to ICF and laser beam quality［J］. Laser Journal, 1999, 20(1): 1～8

[25] A. E. Siegman. Binary phase plates cannot improve laser beam quality［J］. Opt. Lett., 18(9): 675～677