[1] KOODYS A,CHOUEIRI E.A critical of review of the state-of-the-art in the performance of applied field magnetoplasmadynamic thrusters[C]//41st AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit. Tucson:AIAA, 2005.
[2] SASOH A. Simple formulation of magnetoplasma-dynamic acceleration[J].Physics of Plasmas, 1994, 1(3):464-469.
[3] COLETTI M. A thrust formula for an MPD thruster with applied-magetic field [J].Acta Astronautic, 2012, 81(2): 667-674.
[4] ERSOHN F H, GIRIMAJI S S, STAACK D, et al. Magnetic nozzle plasma plume: review of crucial physical phenomena[C]//48th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit. Atlanta: AIAA, 2012.
[5] BOXBERGER A,BAMBACH P,HERDRICH G, et al. Experimental investigation of steady-state applied-field magnetoplasmadynamic thrusters at institute of space system[C] //48th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit. Atlanta:AIAA,2012.
[6] BOXBERGER A J,STEL P,HERIDRICH G. Performance of 100kW steady state applied-field MPD thruster[C]//31st International Symposium on Space Technology and Science. Japan: Matsuyama, 2017.
[7] ALBERTONI R, PAGANUCCI F, ROSSETTI P, et al. Experimental study of a hundred-kilowatt class applied-field magnetoplasmadynamic thruster[J].Journal of Propulsion and Power, 2013, 29(5): 1138-1145.
[8] SOVEY J S,MANTENIEKS M. Performance and lifetime assessment of magnetoplasmadynamic arc thruster[J].Journal of Propulsion and Power, 1991, 7(1):71-83.
[9] PATRICK R M,SCHNEIDEMAN A M. Performance characteristics of a magnetic annular arc[C]// 6th Symposium on Engineering Aspects of Magnetohydrodynamics. Pittsburgh: PA,1965.
[10] ARAKAWA Y,SASON A. Electromagnetic effects in an applied-field magnetoplasmadynamic thruster[J].Journal of Propulsion and Power, 1992, 8(1):98-102.
[11] TAHARA H,KAGAYA Y,YOSHIKAWAI T. Effects of applied magnetic fields on performance of quasisteady magnetoplasmadynamic arcjet[J].Journal of Propulsion and Power, 1995, 11(2): 337-342.
[12] WANG B J, YANG W J, TANG H B, et al. Target thrust measurement for applied-field magneto-plasmadynamic thruster[J].Measurement Science and Technology,2018,29(7).
[13] 宁中喜,范金蕤. 三丝扭摆微推力在线测量方法及不确定度分析[J].测控技术,2012, 31(5): 45-48.
[14] 杨涓,刘宪闯,王与权,等. 微波推力器独立系统的三丝扭摆推力测量[J].推进技术,2016,37(2): 362-371.
[15] MIKELLIDES P G,PRUCHI P J. Applied-field magnetoplasmadynamic thrusters, part 2: analytic expressions for thrust and voltage[J].Journal of Propulsion and Power, 2000,16(5):894-901.
[16] ALBERTONI R, PAGANUCCI F, ANDR ENUCCI M. A phenomenological performance model for applied-field MPD thrusters[J].Acta astronautica, 2015, 107: 177 -186.
[17] LEV D R,CHOUEIRI E. Scaling of efficiency with applied magnetic field in magnetoplasmadynamic thrusters[J].Journal and Power,2012,28(3):609-616.
[18] LI Zefeng,TANG Haibin,WANG Yibai, et al. Increasing the effective voltage in applied-field MPD thrusters[J].Journal of Physics, 2018, 51(8).
[19] MYERS R M,SOULAS G C. Anode power deposition in applied-field MPD thrusters[C] //28th Joint Propulsion Conference. Nashville: AIAA, 1992.
[20] 张岩,康小录,乔彩霞.钡钨空心阴极放电等离子体特性实验研究[J].火箭推进,2014,40(5):55-60.
ZHANG Yan,KANG Xiaolu,QIAO Caixia. Experimental investigation for discharge plasma properties of BaW hollow cathode[J].Journal of Rocket Propulsion, 2014,40(5):55-60.
[21] BARNETT J W,JAHN R G. Onset phenomena in MPD thrusters[C]//AIAA/DGLR/JSASS 18th International Electric Propulsion Conference. Virginia:AIAA,1985.