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高空核爆电磁脉冲穿透电离层数值计算 被引量:4

Calculation of high altitude nuclear electromagnetic pulse propagation in ionosphere
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摘要 电离层对电磁脉冲传播的影响可以用一个频域的电流密度来描述,在时域则等效为一附加的电流密度和电导率。推导了附加电流密度和电导率在时域的表达式,它们是电离层参数和作用电场的函数,并以差分方程的形式给出。高空核爆电磁脉冲(HEMP)的计算是在时域进行的,将该电流密度和电导率计算方法应用于HEMP产生和传播的自洽计算中。作为算例,计算了100 km高空核爆电磁脉冲产生和向上传播的3种情况,并对计算结果进行了比对分析。计算结果表明:电离层时域计算方法与核爆电磁脉冲计算方法的结合是合理有效的,爆点上方考虑电离层影响的HEMP要比不考虑电离层影响的结果小得多。 Additional current density,which is a function of frequency,can be used to describe the effect of the ionosphere in the process of electromagnetic pulse propagation.In time domain,however,this effect can be expressed in two terms: current density and conductivity.Their time-domain expressions were derived in differential equation forms,which are the functions of ionosphere parameters and the electric field exerted.These current and conductivity were used directly in the high altitude nuclear electromagnetic pulse(HEMP) calculations,for which these computations need to be held in time domain to simulate the HEMP stimulation and propagation in the ionosphere simultaneously.As an example,three cases of the stimulation and propagation of HEMP exploded at a height of 100 km were calculated.Comparison and analysis of the results show that the computation methods are reasonable and effective,and the amplitude of HEMP above the burst point influenced by the ionosphere is much smaller than that not influenced.
作者 程引会 马良 周辉 吴伟 李进玺 李宝忠
机构地区 西北核技术研究所
出处 《强激光与粒子束》 EI CAS CSCD 北大核心 2011年第2期441-444,共4页 High Power Laser and Particle Beams
关键词 高空核爆电磁脉冲 电离层 等离子体 时域有限差分法 high altitude nuclear electromagnetic pulse ionosphere plasma finite-difference time-domain
分类号 O441 [理学—电磁学]
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参考文献15

  • 1John M. The amplitude distribution of a EMP propagation through the ionosphere[R]. EMP Theoretical Notes, Note 80, 1970.
  • 2Michael A M. A standard ionosphere for the study of EMP propagation[R]. EMP Theoretical Notes, Note 117, 1971.
  • 3Kenneth C C, Joe M. EMP propagation in the ionosphere[R]. EMP Theoretical Notes, Note 192, 1974.
  • 4Vittitoe C N. Expansion method for calculation dispersion of EMP propagating in the ionosphere[R]. EMP Theoretical Notes, Note 237, 1974.
  • 5孟萃,陈雨生,周辉.爆炸高度及威力对空间核电磁脉冲信号特性影响的数值分析[J].计算物理,2003,20(2):173-177. 被引量:7
  • 6孟萃,陈雨生,周辉,龚建成.电离层对核电磁脉冲传播特性影响的分析[J].核电子学与探测技术,2004,24(4):369-372. 被引量:5
  • 7Nickisch L J, Franke P M. Finite difference time-domain solution of Maxwell's equations for the dispersive ionosphere[J]. IEEE Trans on Antennas and Propagation, 1992, 33(5) :33-39.
  • 8Luebber R J, Hunsberger F P, Kunz K S. A frequency dependent finite difference time domain formulation for transient propagation in plasma[J]. IEEE Trans on Antennas and Propagation, 1991, 39(1):29-34.
  • 9Kelley D F, Luebber R J. Piecewise linear recursive convolution for dispersive media using FDTD[J]. IEEE Trans on Antennas and Propa gation, 1996, 44(6):792-797.
  • 10Kashiwa T, Fukai I. A treatment by FDTD method of dispersive characteristics associated with electronic polarization[J]. Microwave and Optical Technology Letters, 1990, 3(1):203-205.

二级参考文献20

  • 1陈雨生 陈雨生 等.核爆炸电磁脉冲研究[A].陈雨生等.核爆电磁脉冲技术交流会文集[C].北京:国防科工委情报资料研究所,1980.1-35.
  • 2Krumpholz M, Katehi L P B. MRTD: new time-domain schemes based on multiresolution analysis[J]. IEEE Trans Microwave Theory Tech, 1996, 44(4):555-571.
  • 3Goverdhanam K, Tentzeris E, Krumpholz M, et al. An FDTD multigrid based on multiresolution analysis[C]//IEEE Antennas and Propagat Soc Int Symp. 1996:352-355.
  • 4Liu Qinghuo. The PSTD algorithm: a time domain method requiring only two cells per wavelength[J]. Microwave Opt Tech Lett, 1997, 15:158-165.
  • 5Liu Qinghuo. A new numerical method for large-scale complex media: the PSTD algorithm[C]//Proc 17th Int Geoscience and Remote Sensing Symp. 1997:942- 944.
  • 6Fan Guoxin, Liu Qinghuo, Hutchinson A A, et al. FDTD and PSTD simulations for plasma applications[J]. IEEE Trans Plasma Sci, 2001, 29(2) :341 -348.
  • 7[1]Karzas WJ, et al. Satellite-based detection of the electromagnetic signal from low and intermediate altitude nuclear explosions[R]. AD -616701.
  • 8[2]Karzas WJ, et al. electromagnetic radiation from a nuclear explosion in space[J]. Phys Rev,1961, 126 (6):
  • 9[3]Karzas WJ, et al. Detection of the electromagnetic radiation from nuclear explosions in space[J]. Phys Rev,1965, 137(5B).
  • 10[4]Latter R. Dection of Nuclear Explosions"[J]. Ann Rev of Nuc Sci, 1961,11:

共引文献11

同被引文献29

  • 1孟萃,陈雨生,周辉,龚建成.电离层对核电磁脉冲传播特性影响的分析[J].核电子学与探测技术,2004,24(4):369-372. 被引量:5
  • 2程引会,周辉,李宝忠,陈明,吴伟,乔登江.光电子发射引起的柱腔内系统电磁脉冲的模拟[J].强激光与粒子束,2004,16(8):1029-1032. 被引量:25
  • 3刘尚合.武器装备的电磁环境效应及其发展趋势[J].装备指挥技术学院学报,2005,16(1):1-6. 被引量:102
  • 4王泰春,贺云汉,王玉芝.电磁脉冲导论[M].北京:国防工业出版社,2011.
  • 5Rich W F,StringerT A.Systemgeneratedelectromagneticpulseandspacecraftchargingeffects:areviewofthetechnologyasappliedtosystemhardeningproblems[J].IEEE Trans on Nuclear Science,1980,27(6):1524-1528.
  • 6WenaasEP,RogersS.SensitivityofSGEMPtoinputparameters[J].IEEE Trans on Nuclear Science,1975,22(6):2362-2367.
  • 7WoodsAJ,WennasEP.ScalinglawsforSGEMP[J].IEEE Trans on Nuclear Science,1976,23(6):1903-1908.
  • 8CarronNJ,LongmireCL.ScalingbehaviorofthetimedependentSGEMPboundarylayer[J].IEEE Trans on Nuclear Science,1978,25(6):1329-1335.
  • 9HollandR.ComparisonofFTDTparticlepushinganddirectdifferencingofBoltzmann’sequationforSGEMPproblems[J].IEEE Trans on Electromagnetic Compatibility,1995,37(3):433-442.
  • 10WaltersD,WondraJ,NunanS,etal.Graphicalinterfaceforthephysicsbasedgenerationofinputsto3D MEECSGEMPandSREMPsimulations[C]//The16thAnnualHardenedElectronicsandRadiationTechnology(HEART)Conference.1999.

引证文献4

二级引证文献1

强激光与粒子束
2011年 第2期

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