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Interference imaging system for space target has close relation with atmospheric environment, and atmospheric turbulence disturbance distorts terribly the wavefront phase of any transported optics launched from any optics system. In the space target interference imaging system the phase-closure-principle is adopted, in order to eliminate possible effects of atmospheric turbulence on the target image. Based on the power spectrum method and the Fourier transform method, the numerical simulation of wavefront phase screen, which is distorted by atmospheric turbulence conforming to the statistical rules of kolmogonov model and modified Von Karmen model, is respectively implemented. Various images by several different phase-screen models on the interference imaging system are obtained. Simulation results show that, with the advantage of adopting phase-closure-principle, the possible effects of atmospheric turbulence imaging can be eliminated basically.
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Keywords:
- interference imaging /
- atmospheric turbulence /
- power spectrum inversion /
- wave-front phrase screen
[1] Holmes R B Ma S Bhowmik A Greninger C 1996 J. Opt. Soc. Am. 13 351
[2] Bai X, Zhang C M, Jing C Y, Guan X W, Cao F, Li Y N, Xie L L 2011 Acta Phys. Sin. 60 070703 (in Chinese) [白鑫, 张淳民, 景春元, 关小伟, 曹芬, 李艳娜, 谢林利 2011 60 070703]
[3] Kendrick R L 2006 Appl. Phys. 45 4235
[4] Campbell B F, Rubin L, Holmes R B 1995 Appl. Opt. 34 5932
[5] Jin X L 2010 Acta Phys. Sin. 59 692 (in Chinese) [季小玲 2010 59 692]
[6] Wei H Y, Wu Z S, Peng H 2008 Acta Phys. Sin. 57 6666 (in Chinese) [韦宏艳, 吴振森, 彭辉 2008 57 6666]
[7] Fleck J A, Morris J R 1976 Appl. Phys. 10 129
[8] He W U, Wu J 2008 Proc. SPIE 6832 1
[9] Zhang H M, Li X Y 2006 Opto-Electronic Engineering 33 14 (in Chinese) [张慧敏, 李新阳 2006 光电工程 33 14]
[10] Yan H X 2000 Appl. Opt. 39 3023
[11] Lü Q B, Xiang L B, Xue B, Zhou J S 2005 Acta Phys. Sin. 34 1336 (in Chinese) [吕群波, 相里斌, 薛彬, 周锦松 2005 光子学报 34 1336]
[12] Lü Q B, Yuan Y, Xiang L B 2008 Acta Phys. Sin. 37 573 (in Chinese) [吕群波, 袁艳, 相里斌 2008 光子学报 37 573]
[13] Xiang L B, Yuan Y, Lü Q B 2009 Acta Phys. Sin. 58 5400 (in Chinese) [相里斌, 袁艳, 吕群波 2009 58 5400]
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[1] Holmes R B Ma S Bhowmik A Greninger C 1996 J. Opt. Soc. Am. 13 351
[2] Bai X, Zhang C M, Jing C Y, Guan X W, Cao F, Li Y N, Xie L L 2011 Acta Phys. Sin. 60 070703 (in Chinese) [白鑫, 张淳民, 景春元, 关小伟, 曹芬, 李艳娜, 谢林利 2011 60 070703]
[3] Kendrick R L 2006 Appl. Phys. 45 4235
[4] Campbell B F, Rubin L, Holmes R B 1995 Appl. Opt. 34 5932
[5] Jin X L 2010 Acta Phys. Sin. 59 692 (in Chinese) [季小玲 2010 59 692]
[6] Wei H Y, Wu Z S, Peng H 2008 Acta Phys. Sin. 57 6666 (in Chinese) [韦宏艳, 吴振森, 彭辉 2008 57 6666]
[7] Fleck J A, Morris J R 1976 Appl. Phys. 10 129
[8] He W U, Wu J 2008 Proc. SPIE 6832 1
[9] Zhang H M, Li X Y 2006 Opto-Electronic Engineering 33 14 (in Chinese) [张慧敏, 李新阳 2006 光电工程 33 14]
[10] Yan H X 2000 Appl. Opt. 39 3023
[11] Lü Q B, Xiang L B, Xue B, Zhou J S 2005 Acta Phys. Sin. 34 1336 (in Chinese) [吕群波, 相里斌, 薛彬, 周锦松 2005 光子学报 34 1336]
[12] Lü Q B, Yuan Y, Xiang L B 2008 Acta Phys. Sin. 37 573 (in Chinese) [吕群波, 袁艳, 相里斌 2008 光子学报 37 573]
[13] Xiang L B, Yuan Y, Lü Q B 2009 Acta Phys. Sin. 58 5400 (in Chinese) [相里斌, 袁艳, 吕群波 2009 58 5400]
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