大气压等离子体层中微波传播的数值分析

The Numerical Solutions of the Propagation of a Microwave in an Atmospheric Pressure Plasma Layer

下载PDF

导出

摘要用积分-微分波方程分析了大气压等离子体中微波的传播的一维衰减特性,用Z变换-FDTD方法描述了二维衰减特性.探讨了微波在大气压等离子体层中传播时电磁波的幅度和相移与电子密度及电子中子碰撞之间的关系.给出大气压等离子体层物理特性参数(如宽度、电子密度、碰撞频率)对传输波特性的影响. The propagation of a microwave in an atmospheric pressure plasma（APP）layer was described numerically with an integral differential wave equation in one dimension（normal incident）case and with the Z-transforms Finite Difference Time Domain（Z-FDTD）method in two dimension（oblique incident）case.When the microwave passes through the APP layer,its amplitude and phase of the wave electric field are obviously modulated by both the electron density and the collisions between the electrons and neutrals.The dependencies of the passed wave behaviors（i.e.the phase shift,the reflectivity,the transmissivity and absorptivity）on the APP layer characteristics（width,electron density,and collision frequency）are presented.

作者李圣龚学余

机构地区南华大学电气工程学院

出处《怀化学院学报》 2010年第5期48-50,共3页 Journal of Huaihua University

基金国家自然科学基金资助项目(10775066) 湖南省教育厅资助项目(07C643)

关键词大气压等离子体积分-微分波方程 Z变换-FDTD方法微波衰减 atmospheric pressure plasmas integral-differential wave equation Z-transforms Finite Difference Time Domain method attenuation of microwave

分类号 TN011 [电子电信—物理电子学]

引文网络
相关文献

参考文献5

1Vidmar R. J. On the use of atmospheric pressure plasmas as electromagnetic reflectors and absorbers [ J ]. IEEE Trans Plasma Sci, 1990, 18: 733-741.
2Laroussi M, Roth J R. Numerical calculation of the reflection, absorption, and transmission of microwaves by a non - uniform plasma slab [J]. IEEE Trans Plasma Sci, 1993, 2: 366- 371.
3Shu Zhang, Xiwei Hu, Zhonghe Jiang, Minghai Liu, Yong He. Propagation of an electromagnetic wave in atmospherie pressure plasma: Numerical solutions [ J ]. Phys. Plasma. 2006, 13 (1): 013501-013507.
4Jiang Zhonghe, Hu Xiwei, Liu Minghai, Zhang Shu, He Yong, Pan Yuan. Propagation of Electromagnetic TM (S- Polarization) Mode in Two- Dimensional Atmospheric Plasma [J]. Plasma Sci. Technol. 2006, 8 (3): 297-299.
5邵可然,晏明,雷刚,胡希伟.电磁波在不均匀非磁化等离子体中的吸收[J].华中科技大学学报（自然科学版）,2007,35(6):57-59. 被引量：5

二级参考文献5

1Vidmer R J.On the use of atmospheric pressure plasma as electromagnetic reflectors and absorbers[J].IEEE Trans Plasma Sci,1990,18:733-741.
2Laroussi M,Roth J R.Numerical calculation of the reflection,absorption,and transmission of microwaves by a nonuniform plasma slab[J].IEEE Trans Plasma Sci,1993,2:366-371.
3Yee K S.Numerical solution of initial boundary value problems involving Maxwell equations in isotropic media[J].IEEE Trans Antennas Propagat,1966,14:302-307.
4Sullivan D M.A frequency-dependent FDTD method using Z transforms[J].IEEE Trans Antennas Propagat.1992,40:1 223-1 230.
5Zhang Shu,Hu Xiwei,Jiang Zhonghe.Propagation of an electromagnetic wave in an atmospheric pressure plasma:numerical solutions[J].Physics of Plasma,2006,13:1-7.

共引文献4

1晏明,许金,余锡文.非磁化等离子体覆盖导体柱的ZTFDTD分析[J].微波学报,2008,24(S1):49-52. 被引量：3
2晏明,许金,余锡文.不均匀非磁化等离子体柱的ZTFDTD分析[J].海军工程大学学报,2009,21(3):18-22. 被引量：5
3陈楠,陈文波.均匀非磁化等离子体对入射平面电磁波的吸收[J].电子元器件应用,2010,12(4):89-91.
4赵建森,张芝涛,徐晓文,王加伟,俞哲.等离子体阵面吸收与反射电磁波的实验探索[J].广东工业大学学报,2011,28(1):94-97. 被引量：1

1金锋,焉迪,王志斌,李和平,葛楠,包成玉.大气压射频辉光放电阻抗特性的实验研究[J].高电压技术,2013,39(7):1596-1601. 被引量：12
2易军,顾岩.大气压等离子体在废气处理中的应用研究[J].时代报告（学术版）,2011(12X):284-284.
3张向军.非屏蔽双绞线的应用基础[J].科技情报开发与经济,2004,14(5):205-206.
4王海强.尘暴中的微波衰减和交叉极化[J].电波与天线,1991(6):18-27. 被引量：1
5杨彩霞.衰减测量中的不确定性分析[J].电讯工程,1996(4):50-56.
6陈廷龙.沙暴的微波衰减[J].电波与天线,1991(6):41-42.
7傅思镜,童洲森,刘叶新,邓莉,林位株.超高速行波电吸收调制器的k值设计方法[J].光子学报,2004,33(7):806-809. 被引量：3
8贾旭,胡同祥.二厘米微波衰减标准装置不确定度的验证[J].航空计测技术,2003,23(3):32-33.
9陈建伟.微波衰减与相移联测[J].物理通报,2011,40(8):115-117. 被引量：1
10杨甲胜,王喆,刘承禹.烟幕干扰性能测试技术分析[J].光电技术应用,2012,27(5):77-80. 被引量：2

怀化学院学报

2010年第5期

浏览历史

内容加载中请稍等...

大气压等离子体层中微波传播的数值分析

参考文献5

二级参考文献5

共引文献4

相关作者

相关机构

相关主题

浏览历史