[1] C. C. Aleksoff. Synthetic interferometric imaging technique for moving objects［J］. Appl. Opt., 1976, 15(8): 1923～1929

[2] R. B. Holmes, S. Ma, A. Bhowmik, C. Greninger. Analysis and simulation of a synthetic aperture technique for imaging through a turbulent medium［J］. J. Opt. Soc. Am. A, 1996, 13(2): 351～364

[3] R. B. Holmes, T. Brinkley. Reconstruction of images of deep space objects using Fourier telescopy［C］. SPIE, 1999, 3815: 11～12

[4] K. R. MacDonald, J. K. Boger, M. Fetrow et al.. An experimental demonstration of Fourier telescopy［C］. SPIE, 1999, 3815: 23～29

[5] S. D. Ford, D. G. Voelz, V. L. Gamiz. Light imaging national testbed (GLINT) past, present, and future［C］. SPIE, 1999, 3815: 2～10

[6] V. L. Gamiz, R. B. Holmes, S. R. Czyzak. GLINT：program overview and potential science objectives［C］. SPIE, 2000, 4091: 304～315

[7] A. Sliwinski. Acousto-optics and its perspectives in research and applications [J]. Ultrasonics, 1990, 28(4): 195～213

[8] Xu Jieping. The Principle, Design and Application of Acousto-Optic Device［M］. Beijing: Science Press, 1982

[9] Dong Lei, Wang Bin, Liu Xinyue. Introduction to key techniques of multiple beam Fourier telescopy［J］. Chinese J. Optics & Applied Optics, 2010, 3(5): 440～445

[10] E. L. Cuellar, J. Staap, J. Cooper. Laboratory and field experimental demonstration of a Fourier telescopy imaging system ［C］. SPIE, 2005, 5896: 90～104

[11] Chen Wei, Li Quan, Wang Yangui. Object reconstruction of Fourier-telescopy based on all-phase spectrum analysis［J］. Acta Optica Sinica, 2010, 30(12): 3441～3446