[1] |
LAI S T, TAUTZ M. High-level spacecraft charging in eclipse at GEO-synchronous altitudes:A statistical study[J]. Journal of Geophysical Research, 2006, 111(A9):268-276.
|
[2] |
LAI S T. Some novel ideas of spacecraft charging mitigation[J]. IEEE Transactions on Plasma Science, 2012, 40(2):402-409.
|
[3] |
史亮, 柳青, 陈益峰, 等. 太阳帆板驱动机构内带电效应试验[J]. 空间科学学报, 2017, 37(3):344-349. SHI L, LIU Q, CHEN Y F, et al. Experimental research on solar arry drive assembly internal charging effects[J]. Chinese Journal of Space Science, 2017, 37(3):344-349(in Chinese).
|
[4] |
GREEN N W, DENNISON J R. Deep dielectric charging of spacecraft polymers by energetic protons[J]. IEEE Transactions on Plasma Science, 2008, 36(5):2482-2490.
|
[5] |
王建昭, 田岱, 张庆祥, 等. 木星环绕探测任务中的内带电风险评估[J]. 深空探测学报, 2017, 4(6):564-570. WANG J Z, TIAN D, ZHANG Q X, et al. Internal charging evaluation in Jupiter exploration mission[J]. Journal of Deep Space Exploration, 2017, 4(6):564-570(in Chinese).
|
[6] |
HAN J, HUANG J, LIU Z, et al. Correlation of double star anomalies with space environment[J]. Journal of Spacecraft Rockets, 2005, 42(6):1061-1065.
|
[7] |
FREDERICKSON A R, DENNISON J R. Measurement of conductivity and charge storage in insulators related to spacecraft charging[J]. IEEE Transactions on Nuclear Science, 2003, 50(6):2284-2291.
|
[8] |
THIÉBAULT B, JEANTY-RUARD B, SOUQUET P, et al. SPIS 5.1:An innovative approach for spacecraft plasma modeling[J]. IEEE Transactions on Plasma Science, 2015, 43(9):2782-2788.
|
[9] |
MANDELL M J, DAVIS V A, COOKE D L, et al. Nascap-2k spacecraft charging code overview[J]. IEEE Transactions on Plasma Science, 2006, 34(5):2084-2093.
|
[10] |
MURANAKA T, HOSODA S, KIM J H, et al. Development of multi-utility spacecraft charging analysis tool (MUSCAT)[J]. IEEE Transactions on Plasma Science, 2008, 36(5):2336-2349.
|
[11] |
HATTA S, MURANAKA T, KIM J, et al. Accomplishment of multi-utility spacecraft charging analysis tool (MUSCAT) and its future evolution[J]. Acta Astronautica, 2009, 64(5):495-500.
|
[12] |
JUN I, GARRETT H B, KIM W, et al. Review of an internal charging code, NUMIT[J]. IEEE Transactions on Plasma Science, 2008, 36(5):2467-2472.
|
[13] |
RODGERS D J, RYDEN K A, WRERM G L. Fitting of material parameters for DICTAT internal dielectric charging simulations using DICFIT[J]. Materials in a Space Environment, 2003, 540(1):609-613.
|
[14] |
黄建国, 陈东. 卫星介质深层充电的计算机模拟研究[J]. 地球物理学报, 2004, 47(3):392-397. HUAN J G, CHEN D. A study of deep dielectric charging on satellites by computer simulation[J]. Chinese Journal of Geo-physics, 2004, 47(3):392-397(in Chinese).
|
[15] |
黄建国, 陈东. 卫星中介质深层充电特征研究[J]. 物理学报, 2004, 53(3):961-966. HUAN J G, CHEN D. A study of characteristics for deep dielectric charging on satellites[J]. Acta Physidca Sinica, 2004, 53(3):961-966(in Chinese).
|
[16] |
KATZ I, PARKS D E, MANDELL M J, et al. A three dimensional dynamic study of electrostatic charging in materials:NASA CR-135256[R]. Cleveland, OH:NASA Lewis Research Center, 1977.
|
[17] |
张振龙, 全荣辉, 韩建伟, 等. 卫星部件内部充放电试验与仿真[J]. 原子能科学技术, 2010, 44(S1):538-544. ZHANG Z L, QUAN R H, HAN J W, et al. Internal charging-discharging test and simulaiton for satellite components[J]. Atomic Energy Science and Technology, 2010, 44(S1):538-544(in Chinese).
|
[18] |
王松, 唐小金, 易忠, 等. 非规则边界条件对介质内带电的影响研究[J]. 原子能科学技术, 2016, 50(9):1537-1543. WANG S, TANG X J, YI Z, et al. Study on impact of irregular boundary condition on dielectric internal charging[J]. Atomic Energy Science and Technology, 2016, 50(9):1537-1543(in Chinese).
|
[19] |
王建昭, 陈鸿飞, 蔡振波, 等. 电阻接地状态下星用电路板深层充电仿真方法[J]. 航天器环境工程, 2017, 34(3):258-264. WANG J Z, CHEN H F, CAI Z B, et al. A mothod simulation internal charging of spacecraft circuit board grounded by electric resistance[J]. Spacecraft Environment Engineering, 2017, 34(3):258-264(in Chinese).
|
[20] |
王松. 航天器内带电三维仿真与外露介质充电研究[D]. 石家庄:军械工程学院, 2016:7. WANG S. Research on 3D simulation of spacecraft internal charging and exposed dielectric charging[D]. Shijiazhuang:Ordnance Engineering College, 2016:7(in Chinese).
|
[21] |
高炳荣, 郝永强, 焦维新. 用蒙特卡罗方法研究卫星内部带电问题[J]. 空间科学学报, 2004, 24(4):289-294. GAO B R, HAO Y Q, JIAO W X. A study on spacecraft internal charging with Monte Carlo method[J]. Chinese Journal of Space Science, 2004, 24(4):289-294(in Chinese).
|
[22] |
易忠, 王松, 唐小金, 等. 不同温度下复杂介质结构内带电充电规律仿真分析[J]. 物理学报, 2015, 64(12):125201. YI Z, WANG S, TANG X J, et al. Computer simulation on temperature-dependent internal charging of complex dielectric structure[J]. Acta Physidca Sinica, 2015,64(12):125201(in Chinese).
|
[23] |
苏京, 张丽新, 刘刚, 等. 转移轨道航天器深层充放电效应仿真分析[J]. 上海航天, 2018, 35(3):74-80. SU J, ZHANG L X, LIU G, et al. Simulation of deep dielectric charging for transfer orbit satellite[J]. Aerospace Shanghai, 2018, 35(3):74-80(in Chinese).
|
[24] |
王松, 武占成, 唐小金, 等.卫星外露电缆束介质结构深层充电仿真分析[J]. 航天器环境工程, 2015, 32(3):268-272. WANG S, WU Z C, TANG X J, et al. Simulation of deep dielectric charging on satellite's exposed electric cable bundle[J]. Spacecraft Environment Engineering, 2015, 32(3):268-272(in Chinese).
|
[25] |
王松, 易忠, 唐小金, 等. 考虑温度梯度的卫星外露介质深层充电[J]. 高电压技术, 2015, 42(5):1429-1435. WANG S, YI Z, TANG X J, et al. Deep dielectric charging of exposed dielectric of satellite considering temperature gradient[J]. High Voltage Engineering, 2015, 42(5):1429-1435(in Chinese).
|
[26] |
SHU T L. 航天器带电原理[M]. 李盛涛, 郑晓泉, 陈玉,等,译. 北京:科学出版社,2015:161. SHU T L. Fundamentals of spacecraft charging[M]. LI S T, ZHENG X Q, CHEN Y, et al, translated. Beijing:Science Press, 2015:161(in Chinese).
|
[27] |
王松, 武占成, 唐小金, 等. 聚酰亚胺电导率随温度和电场强度的变化规律[J]. 物理学报, 2016, 65(2):025201. WANG S, WU Z C, TANG X J, et al. Study on temperature and electric field dependence of conductivity in polyimide[J]. Acta Physidca Sinica, 2016, 65(2):025201(in Chinese).
|
[28] |
ADAMEC V, CALDERWOOD J H. Electrical conduction in dielectrics at high fields[J]. Journal of Physics D:Applied Physics, 1975, 8(5):551-560.
|
[29] |
李盛涛, 李国倡, 闵道敏, 等. 入射电子能量对低密度聚乙烯深层充电特性的影响[J]. 物理学报, 2013, 62(5):0059401. LI S T, LI G C, MIN D M, et al. Influence of radiation electron energy on deep dielectric charging characteristics of low density polyethylene[J]. Acta Physidca Sinica, 2013, 62(5):0059401(in Chinese).
|
[30] |
PASSENHEIM B C, VAN-LINT V A J, RIDDELL J D, et al. Electrical conductivity and discharge in spacecraft thermal control dielectrics[J]. IEEE Transactions on Nuclear Science,1982, 29(6):1594-1600.
|
[31] |
蒙志成. 环境温度对航天器介质材料带电特性的影响研究[D]. 石家庄:军械工程学院, 2016:1. MENG Z C. Study on the influence of ambient temperature on the charge characteristics of spacecraft dielectric materials[D]. Shijiazhuang:Ordnance Engineering College, 2016:1(in Chinese).
|