[1] BramantiC, WalkerR, SutherlandO, et al. The innovative dual-stage 4-grid ion thruster concept-theory and experimental results[C].AIAA, 2006: IAC-06-C4. 4. 7.

[2] Wilbur P J. Limits on high specific impulse ion thruster operation[C]. AIAA, 2004: AIAA-2004-4106.

[3] Fearn D G. The use of ion thrusters for orbit rasing[J]. Journal of the British Interplanetary Society, 1980, 33: 129-137.

[4] Marques RI, Gabriel SB. Dual stage four grid (DS4G) ion engine for very high velocity change missions[C]. Michigan: 31 st International Electric Propulsion Conference , 2009: 157.

[5] Bramanti C, Izzo D, Samaraee T, et al. Very high delta-V missions to the edge of the solar system and beyond enabled by the dual-stage 4-grid ion thruster concept[J]. Acta Astronautica, 2009, 64(7/8): 735-744.

[6] CasaregoalC, CesarettiG, AndrenucciM. HiPER: a roadmap for future space exploration with innovative electric propulsion technologies[C]. 31 st International Electric Propulsion Conference , 2009: 20- 24.

[7] WalkerR, IzzoD, Fearn D G. Missions to the edge of the solar system using a new advanced dual-stage gridded ion thruster with very high specific impulse[C]. 25 th International Symposium on Space Technology and Science, 2006: k-35.

[8] Fearn D G. The application of gridded ion thrusters to high thrust, high specific impulse nuclear-electric missions[J]. Journal of the British Interplanetary Society, 2005, 58: 257-267.

[9] Kim J, Whealton J H, Schilling G. A study of two-stage ion-beam optics[J]. Journal of Applied Physics, 1978, 49(2): 517-524.

[10] Meixner C N, Menon M M, Tsai C C. Geometrical effects on the beamlet optics of a two-stage ion accelerator[J]. Journal of Applied Physics, 1981, 52(3): 1167-1174.

[11] Ohara Y. Numerical simulation for design of a two-stage acceleration system in a megawatt power ion source[J]. Journal of Applied Physics, 1978, 49(9): 4711-4717.

[12] ColettiM, Gabriel SB. Dual stage ion optics, a parametric study[C]. 42 nd AIAA Plasmadynamics and Lasers Conference , 2011, 2: 780- 794.

[13] ColettiM, Gabriel S B. Dual stage ion optics, a parametric study on performances and lifetime[C]. 47 th AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit , 2011: AIAA-2011-5735.

[14] Coletti M, Gessini P, Gabriel S B. A 4-gridded ion engine for high impulse mission[C/OL]. http://www.alta-space.com/hiper/publications/SP2010_1842612.pdf.

[15] BramantiC, Fearn D G. The design and operation of beam diagnostics for the dual stage 4-grid ion thruster[C]. 30 th International Electric Propulsion Conference , 2007: IEPC-2007-050.

[16] ColettiM, Gabriel S B. Numerical investigation of a dual stage variable isp ion engine[C]. 32 nd International Electric Propulsion Conference , 2011: IEPC-2011-204.

[17] ColettiM, Gabriel S B. Design of a dual stage ion engine for the Hiper project[C]. 46 th AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit , 2010: AIAA-2010-7113.

[18] 贾连军, 张天平, 陈娟娟, 等. 双级加速离子光学系统几何参数研究[J]. 激光与光电子学进展, 2017, 54(4): 041207.

    Jia L J, Zhang T P, Chen J J, et al. Geometric parametric study of dual stage ion optics[J]. Laser & Optoelectronics Progress, 2017, 54(4): 041207.