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激光等离子体微推进技术的研究进展

叶继飞 洪延姬 王广宇 李南雷

叶继飞, 洪延姬, 王广宇, 李南雷. 激光等离子体微推进技术的研究进展[J]. 中国光学(中英文), 2011, 4(4): 319-326.
引用本文: 叶继飞, 洪延姬, 王广宇, 李南雷. 激光等离子体微推进技术的研究进展[J]. 中国光学(中英文), 2011, 4(4): 319-326.
YE Ji-fei, HONG Yan-ji, WANG Guang-yu, LI Nan-lei. Research progress in micro-laser plasma propulsion[J]. Chinese Optics, 2011, 4(4): 319-326.
Citation: YE Ji-fei, HONG Yan-ji, WANG Guang-yu, LI Nan-lei. Research progress in micro-laser plasma propulsion[J]. Chinese Optics, 2011, 4(4): 319-326.

激光等离子体微推进技术的研究进展

基金项目: 

国家973重点基础研究发展规划资助项目(No.61328)

详细信息
    作者简介:

    叶继飞(1981-),男,吉林辽源人,硕士研究生,讲师,主要从事激光微推进技术方面的研究。 E-mail:yjf1981@163.com

  • 中图分类号: TN249; V448.2

Research progress in micro-laser plasma propulsion

  • 摘要: 为了加快激光等离子体微推进技术(LPP)在航天领域的应用,介绍了该项技术近10年的发展状况。讨论了激光等离子体微推进技术发展过程中衍生出的各种工作模式,并简略分析了不同工作模式的优缺点。着重介绍了靶特性对激光微推进性能的影响,包括靶材的选择、靶的结构、靶材掺杂,以及靶物相特性等。针对该项技术的最终发展目标是研制微小卫星姿轨控的激光等离子体微推力器( LPT),介绍并分析了美国Phipps小组开展的激光微推力器的研制工作。最后,指出了激光等离子体微推进技术目前存在的一些问题,并展望了它的发展前景。

     

  • [1] 王广宇,洪延姬,叶继飞. 激光微推进研究进展 . 中国宇航学会.2007年固体火箭推进第24届年会论文集 ,2007:367-372. WANG G Y,HONG Y J,YE J F. Research progress of the laser micro propulsion . Chinese Society of Astronautics. The 24th Solid Rocket Propulsion Symposium,2007:367-372.(in Chinese) [2] CLAUDE R P,MITAT B,WILLY B,et al.. Review:laser-ablation propulsion[J]. J. Propulsion and Power,2010,26(4):609-637. [3] CLAUDE R P. Description of the photonic associates "LPT" thruster . Photonic Associates,LLC,2003:1-3. [4] PHIPPS C,LUKE J,ELGESON W. Laser space propulsion overview[J]. SPIE,2007,6606:660602. [5] 唐志平. 烧蚀模式激光推进的机理和应用探索[J]. 中国科学技术大学学报 ,2007,37(10):1300-1306. TANG ZH P. Exploration of mechanism and applications for ablation laser propulsion[J]. J. University Sci. Technol. China,2007,37(10):1300-1306.(in Chinese) [6] 张翼,郑志远,鲁欣,等. 激光等离子体微推进技术研究进展[J]. 科技导报 ,2007,25(19):70-74. ZHANG Y,ZHENG ZH Y,LU X,et al.. Development of laser plasma micro-propulsion[J]. Science and Technology.,2007,25(19):70-74.(in Chinese) [7] 叶继飞,洪延姬,王广宇. 激光微推进的靶特性研究进展[J]. 推进技术 ,2009,30(6):751-756. YE J F,HONG Y J,WANG G Y. Progress of research in laser micro ablation of target[J]. J. Propulsion Technol.,2009,30(6):751-756.(in Chinese) [8] JAMES R L,CLAUDE R P,GLEN G M. Laser plasma thruster continuous thrust experiment[J]. SPIE,2002,4760:843-851. [9] CLAUDE R P,JAMES R L,THOMAS L,et al.. Micropropulsion using a laser ablation jet[J]. J. Propulsion Power,2004,20(6):1000-1011. [10] CLAUDE R P,JAMES R L. Advantages of a ns-pulse micro-laser plasma thruster[J]. AIP Conf. Proc.,2003,664:230-239. [11] SOOJIN C,TAEHEE H,ARDIAN B G,et al.. Thrust enhancement via gel-type liquid confinement of laser ablation of solid metal propellant[J]. Appl. Phys. A,2010,98:147-151. [12] 洪延姬,王广宇,窦志国. 激光烧蚀微推力器研究进展[J]. 航空学报 ,2009,30(9):1555-1565. HONG Y J,WANG G Y,DOU ZH G. State of art of laser ablation mierothruster[J]. Acta Aeronautica Et Astronautlca Sinica,2009,30(9):1555-1565.(in Chinese) [13] ANDREW V,PAKHOMOV M,SHANE T,et al.. Ablative laser propulsion:a study of specific impulse, thrust and efficiency[J]. AIP Conf. Proc.,2003,664:194-205. [14] CLAUDE R P,JAMES R L,WESLEY H,et al.. 3ks specific impulse with a ns-pulse laser microthruster . International Electric Propulsion Conference,Princeton,NJ,Oct 30-Nov 4,2005:319-322. [15] CLAUDE R P. Laser Ablation and Its Applications[M]. Berlin:Springer-Verlag,2007. [16] SCHALL W O,ECHEL H-A,TEGEL J,et al.. Characterization of the absorption wave produced by CO2 laser ablation of a solid propellant,FA8655-04-1-3067 .Stuffgart:German Aerospace Center Institute of Technical Physics,2005. [17] MASAKATSU N,HIROYUKI K,TAKAYOSHI I,et al.. Experimental investigation of a chemically-augmented, diode laser thruster for micro spacecraft[J]. AIAA,2004:2004-3799. [18] 蔡建. 激光微推进的原理和应用研究 . 合肥:中国科技大学 ,2007. CAI J. Mechanism and experiment investigation of laser micro-propulsion . Hefei:University of Seience & Technology of China,2007.(in Chinese) [19] ANDREW V P,JOHN E S. A conceptual tree of laser propulsion[J]. AIP Conf. Proc.,2008,997:592-603. [20] FABBRO R,FOURNIER J,BALLARD P,et al.. Physical study of laser-produced plasma in confined geometry[J]. J. Appl. Phys.,1990,68:775-784. [21] SHIGEAKI U,KAZUHISA H,KAZUHISA F,et al.. Comparison of surface and internal laser irradiation of solid propellant for propulsion[J]. AIAA,2002:2002-2155. [22] SHIGEAKI U,KAZUHISA H,KAZUHISA F,et al.. Characteristics of volume expansion of laser plasma for efficient propulsion[J]. SPIE,2002,4760:810-820. [23] CLAUDE R P,DANIEL B S,ROBERT R,et al.. Very high coupling coefficients at low laser fluence with a structured target[J]. SPIE,2000,4065:931-938. [24] 程建中,蔡建,胡云,等. 掺杂金属颗粒的高分子工质激光推进实验研究[J]. 强激光与粒子束 ,2008,20(7):1190-1194. CHENG J ZH,CAI J,HU Y,et al.. Experimental study of laser propulsion by using polymer propellant doped with metal powder[J]. High Power Laser and Particle Beams,2008,20(7):1190-1194.(in Chinese) [25] LIPPER T T,DAVID C,HAUER M,et al.. Tailor-made polymers for laser ablation[J]. Review of Paser Engineering,2001,29(11):734-738. [26] SHIGEAKI U. Efficient laser ablation,AOARD 044033 . Tokyo:Tokyo Institute of Technology,2006. [27] ROMAIN F,LUKAS U,THOMAS L,et al.. Laser ablation of energetic polymer solutions:effect of viscosity and fluence on the splashing behavior[J]. Appl. Phys. A,2008,47:78-87. [28] LIPPERT T,URECH L,FARDEL R,et al.. Materials for laser propulsion:"liquid" polymers[J]. SPIE,2008,7005:750012. [29] CLAUDE R P,JAMES R L,THOMAS L,et al.. Liquid-fueled, laser-powered, N-class thrust space engine with variable specific impulse[J]. AIP Conf. Proc.,2008:222-231.
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出版历程
  • 收稿日期:  2011-05-12
  • 修回日期:  2011-07-23
  • 刊出日期:  2011-08-25

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