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基于SIMION软件的空间等离子体探测器的数值仿真 被引量:7

Numerical Simulation Analysis of Space Plasma Detector Based on SIMION
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摘要 空间等离子体探测器采用带偏转板的柱形静电分析器作为传感器,具有大于320°探测视场,可探测约10eV~30keV的热等离子体。利用SIMION软件采用均匀随机抽样建立粒子源的方法仿真探测器的基本特性参数:静电分析器因子、能量分辨率、偏转板因子和偏转角。仿真结果与实测结果吻合很好。静电分析器因子的仿真与实测结果偏差为3.2%,能量分辨率仿真与实测结果偏差为1.5%,偏转角-偏转板因子的关系式与实测结果的相关系数为0.999 4。仿真结果可以有效地应用于该类仪器的设计和定标过程中。 The space plasma detector is a kind of cylindrical electrostatic analyzer with the field-of-view larger than 320° and the capability of measuring the plasma of 10 eV-30 keV. The basic parameters of the plasma detector, such as the electrostatic analyzer factor, energy resolution and the relationship between the deflection factor and the deflection angle, were simulated by the software SIMION. The particle source for the simulation was constructed by the method of uniform random sample. The simulation results fit well with the calibration results. The error between the simulation and the calibration on the parameters of electrostatic factor and energy resolution are 3.2% and 1.5%, respectively. The correlation coefficient between the simulation and the calibration on the relationship of deflection angle and deflection factor is 0. 999 4. The simulation results show that it can be applied well in the process of plasma instrument design and calibration.
作者 孔令高 张爱兵 王世金 孙越强 郑香脂 董永进
机构地区 中国科学院空间科学与应用研究中心 中国科学院研究生院
出处 《中国空间科学技术》 EI CSCD 北大核心 2012年第4期71-76,共6页 Chinese Space Science and Technology
基金 国家863计划(2010AA122205)资助项目
关键词 空间等离子体探测器 柱形静电分析器 数值仿真 Space plasma detector Electrostatic analyzer Numerical simulation
分类号 TU998.13 [建筑科学—市政工程]
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参考文献8

  • 1MARTIN WUEST, DAVID S EVANS, RUDOLF VON STEIGER. Calibration of Particle Instruments in space physics [M]. Netherlands: ESA Publications Division, 2007: 50-52.
  • 2HARDY D A, SCHMITT L K, GUSSENHOVEN M S, et al. Precipitating electron and ion detectors (SSJ/4) for the block 5D/flights 6-10 DMSP satellites calibration and data presentation [R]. Environmental Research Papers, AFGL-TR-84-0317-902, Air Force Geophysics Laboratory, Hanscom AFB, 1984.
  • 3MCCANN D, BARABASH S, NILSSON H, et al. Miniature ion mass analyzer [J]. Planetary and Space Science, 2007, 55(9): 1190-1196.
  • 4THEODORIDIS G C, PAOLINI F R. Charged particle transmission through cylindrical plate electrostatic analyzers [J]. Review of Scientific Instruments, 1968, 39, 326-330.
  • 5BRYCE P, DALGLISH R L, KELLY J C. The 127 electrostatic analyzer performance as a spectrometer [J]. Canadian Journal of Physics, 1973, 51: 574.
  • 6JOHNSTONE A D. The geometric factor of a cylindrical plate electrostatic analyzer[J]. Review of Scientific Instruments, 1972, 43(7) : 1030-1040.
  • 7于德江.圆柱形静电分析器的数值模拟[J].空间科学学报,1999,19(1):61-68. 被引量:3
  • 8BUNDALESKI N, RAKOCEVIC Z, TERZIC 1. Optical properties of the 127 cylindrical energy analyzer used in LEIS experiments[J]. Nuclear Instruments and Methods in Physics Research B, 2002, 198: 208-219.

二级参考文献1

  • 1A. Lellis,R. Bruno,M. B. Bavassano-Cattaneo,V. Formisano. Experimental activity and numerical simulations for the plasma experiment of the ESA CLUSTER Project[J] 1992,Il Nuovo Cimento C(5):657~664

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中国空间科学技术
2012年 第4期

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