[1] S. L. Keil, T. Rimmele, C. Keller et al.. Design and development of the advanced technology solar telescope ［C］. SPIE, 2003, 4853: 240～251

[2] P. R. Goode, C. J. Denker, L. I. Didkovsky et al.. 1.6 M solar telescope in big dear-the NST ［J］. J. Korean Astron. Soc., 2003, 36(S1): S125～S133

[3] Zhong Liu, Zhenyu Jin, Yan Li. Introduction to the 30 m ring interferometric telescope ［C］. SPIE, 2006, 6267: 62672L

[4] Yichun Dai, Zhong Liu, Zhenyu Jin. Active control of a 30 m ring interferometric telescope primary mirror ［J］. Appl. Opt., 2009, 48(4): 664～671

[5] Zhong Liu, Zhenyu Jin. Simulation of Chinese giant solar telescope ［C］. SPIE, 2011, 8336: 833609

[6] Yichun Dai, Zhong Liu, Zhenyu Jin. Importance of tip sensing for active control system of 30-m RIT primary mirror ［J］. Chin. Opt. Lett., 2009, 7(9): 791～794

[7] G. Chanan, J. Nelson, T. Mast. W. M. Keck telescope phasing camera system ［C］. SPIE, 1994, 2198: 1139～1149

[8] M. Troy, G. Chanan, S. Michaels et al.. A conceptual design for thirty meter telescope alignment and phasing system ［C］. SPIE, 2008, 7012: 70120Y

[9] N. Yaitskova, F. Gonte, F. Derie et al.. The active phasing experiment part I: concept and objectives ［C］. SPIE, 2006, 6267: 62672Z

[10] P. Y. Bely. The Design and Construction of Large Optical Telescopes ［M］. New York: Springer-Verlag, 2003

[11] R. G. Buser, G. K. Born. Determination of atmospherically induced phase fluctuations by long-distance interferometry at 6328A ［J］. J. Opt. Soc. Am., 1970, 60(8): 1079～1084

[12] R. G. Buser. Interferometric determination of the distance dependence of the phase structure function for near-ground horizontal propagation at 6328 nm ［J］. J. Opt. Soc. Am., 1971, 61(4): 488～491

[13] Wu Xiaoqing, Zhu Xingting, Huang Honghua et al.. Optical turbulence of atmospheric surface layer estimated based on the Monin-Obukhov similarity theory ［J］. Acta Optica Sinica, 2011, 32(7): 0701004

[14] Lu Chao, Yuan Renmin, Luo Tao et al.. Characteristic scale analysis of atmospheric optical turbulence in simulating convective boundary layer with water tank ［J］. Acta Optica Sinica, 2012, 32(2): 0201002

[15] Tian Yongzhi, Liu Jianguo, Zeng Zongyong et al.. A new optical method for the determiantion of heat and gas fluxes measurement in the surface layer ［J］. Acta Optica Sinica, 2012, 32(8): 0801001

[16] D. M. Winker. Effect of a finite outer scale on the Zernike decomposition of atmospheric optical turbulence ［J］. J. Opt. Soc. Am. A, 1991, 8(10): 1568～1573

[17] R. W. Lee, J. C. Harp. Weak scattering in random media, with applications to remote probing ［J］. Proc. IEEE, 1969, 57 (4): 375～405

[18] J. W. Goodman. Statistical Optics ［M］. New York: John Willey & Sons, 1985

[19] P. H. Hu, J. Stone, T. Stanley. Application of Zernike polynomials to atmospheric propagation problems ［J］. J. Opt. Soc. Am. A, 1989, 6(10): 1595～1607

[20] R. J. Noll. Zernike polynomials and atmospheric turbulence ［J］. J. Opt. Soc. Am., 1976, 66(3): 207～211

[21] R. Avila, A. Ziad, J. Borgnino et al.. Theortical spatiotemporal analysis of angle of arrival induced by atmospheric turbulence as observed with the grating scale monitor experiment ［J］. J. Opt. Soc. Am. A, 1997, 14(11): 3070～3082

[22] L. D. Barr, J. Fox, G. A. Roczulp et al.. Seeing studies on a 1.8 m mirror ［C］. SPIE, 1990, 1236: 492～506

[23] Huang Honghua, Yao Yongbang, Rao Ruizhong. Atmospheric turbulence outer scale measurement based on angle-of-arrival covariance ［J］. Acta Optica Sinica, 2007, 27(8): 1361～1365