[1] [1] Deng Ximing, Liang Xiangchun, Chen Zezun et al.. Uniform illumination of large targets using a lens array. Appl. Opt., 1986, 25(3):377～381

[5] [5] J. Cordingley. Application of a binary diffractive optic for beam shaping in semiconductor processing by lasers. Appl. Opt., 1993, 32(14):2538～2542

[6] [6] R. Bourouis, K. Ait Ameur, H. Ladjouze. Optimization of the Gaussian beam flattening using a phase-plate. J. Modern Optics, 1997, 44(7):1417～1427

[7] [7] S. N. Dixit, I. M. Thomas, B. W. Woods et al.. Random phase plates for beam smoothing on the Nova laser. Appl. Opt., 1993, 32(14):2543～2554

[9] [9] Zhongyong Liu, Yu Zhao, Dianyuan Fan. Improvement of the illumination uniformity in ICF using a random polarization control plate. Opt. Comm., 1998, 152(1,3):1～5

[10] [10] M. S. Bowers. Diffractive analysis of unstable optical resonators with super-Gaussian mirrors. Opt. Lett., 1992, 17(19):1319～1321

[11] [11] P. A. Bélanger, R. L. Lachance, C. Paré. Super-Gaussian output from a CO2 laser by using a graded-phase mirror resonator. Opt. Lett., 1992, 17(10):739～741

[12] [12] T. Y. Cherezova, S. S. Chesnokov, L. N. Kaptsov et al.. Super-Gaussian laser intensity output formation by means of adaptive optics. Opt. Comm., 1998, 155(1,3):99～106

[13] [13] Qiang Lin, Ligang Wang. Optical resonators producing partially coherent flat-top beams. Opt. Comm., 2000, 175(4,6):295～300

[15] [15] E. Louvergneaux, D. Henneguin, D. Dangoisse et al.. Transverse mode competition in a CO2 laser. Phys. Rev. A, 1996, 53(6):4435～4438

[16] [16] S. Tanaka, H. Sato. Intracavity optical modulation using fresnel zone-plate type E-O lens. SPIE, 1999, 3620:38～44