[1] Mark Bashkansky, Robert L Lucke, Funk E E, et al. Two-dimensional synthetic aperture imaging in the optical domain[J]. Opt Lett, 2002, 27(22): 1983-1985.

[2] Steven M Beck, Joseph R Buck, Walter F Buell, et al. Synthetic-aperture imaging laser radar: laboratory demonstration and signal processing[J]. Appl Opt, 2005,44(35): 7621-7629.

[3] Jennifer C Ricklin, Bryce Schumm, Matt Dierking, et al. Synthetic aperture ladar for tactical imaging (SALTI) flight test results and path forward[C]// Proceedings of the The 14th Coherent Laser Radar Conference, 2007: 8-13.

[4] Brian Krause, Joseph Buck, Christopher Ryan, et al. Synthetic aperture ladar flight demonstration[C]// 2011 Conference on Laser and Electro-optics, 2011: PDPB7.

[5] Stephen Crouch, Barber Z W. Laboratory demonstrations of interferometric and spotlight synthetic aperture ladar techniques [J]. Opt Exp, 2012, 20(22): 24237-24246.

[6] Simon Turbide, Linda Marchese, Alain Bergeron, et al. Synthetic aperture ladar based on a MOPAW laser[C]//SPIE, 2016, 10005: 1000502.

[7] Russell Trahan, Bijan Nemati, Hanying Zhou, et al. Low-CNR inverse synthetic aperture ladar imaging demonstration with atmospheric turbulence[C]//SPIE, 2016, 9846: 98460E.

[8] Li Fei, Zhang Hongyi, Wu Jun, et al. Mechanism and experiment of code intensity-modulation on synthetic aperture ladar [J]. Infrared and Laser Engineering, 2015, 45(9): 2575-2582. (in Chinese)

[9] Zhu Luan, Sun Jianfeng, Yu Zhou, et al. Down-looking synthetic aperture imaging ladar demonstrator and its experiments over 1.2 km outdoor[J]. Chin Opt Lett, 2014, 12(11): 111101.

[10] Zhao Zhilong, Wu Jin, Su Yuanyuan, et al. Three-dimensional imaging interferometric synthetic aperture ladar [J]. Chin Opt Lett, 2014, 12(9): 091101.

[11] Wu Jin, Li Feifei, Zhao Zhilong, et al. Demonstration of stripmap mode synthetic aperture ladar with PGA-independenthigh resolution images[J]. Infrared and Laser Engineering, 2014, 43(11): 3559-3564. (in Chinese)

[12] Li Fei, Zhang Hongyi, Wu Jun, et al. Mechanism and experiment of code intensity-modulation on synthetic aperture ladar[J]. Infrared and Laser Engineering, 2015, 44(9): 2575-2582. (in Chinese)

[13] Wu Jin, Zhao Zhilong, Wu Shudong, et al. High resolution synthetic aperture ladar imaging at 12.9 m distance[J]. Acta Optica Sinica, 2015, 35(12): 273-278. (in Chinese)

[14] Wang Ning, Wang Ran, Li Guangzuo, et al. Experiment of inverse synthetic aperture ladar at 1.1 km[C]//SPIE, 2016, 10155: 101551G.

[15] Lu Zhiyong, Zhou Yu, Sun Jianfeng, et al. Airborne down-looking synthetic aperture imaging ladar field experiment and its flight testing[J]. Chin J Lasers, 2017, 44(1): 0110001. (in Chinese)

[16] Li Guangzuo, Wang Ran, Song Ziqi, et al. Linear frequency-modulated continuous-wave ladar system for synthetic aperture imaging [J]. Appl Opt, 2017, 56(12): 3257-3262.

[17] Yu Tang, Bao Qin, Yun Yan, et al. Multiple-input multiple-output synthetic aperture ladar system for wide-range swath with high azimuth resolution[J]. Appl Opt, 2016, 55(6): 1401-1405.

[18] Wahl D E, Eichel P H, Ghigli D C, et al. Phase gradient autofocus-a robust tool for high resolution SAR phase correction[J]. IEEE Trans on Aerospace and Electronic Systems, 1994, 30(3): 827-834.

[19] Stappaerts E A, Scharlemann E T. Differential synthetic aperture ladar[J]. Opt Lett, 2005, 30(18): 2385-2387.

[20] Barber Z W, Dahl J R. Experimental demonstration of differential synthetic aperture ladar[C]//OSA/CLEO, 2015.

[21] Barber Z W, Dahl J R, Blaszczyk C R. FMCW differential synthetic aperture ladar for turbulence mitigation[C]//18th Coherent Laser Radar Conference, 2016.

[22] Zhao Zhilong, Huang Jianyu, Wu Shudong, et al. Experimental demonstration of tri-aperture differential synthetic aperture ladar[J]. Opt Commun, 2017, 389(4): 181-188.