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等离子体中电磁波的粒子模拟 总被引:1,自引:0,他引:1
本文介绍了1 2/2维相对论性、电磁模等离子体粒子模拟的方法和原理。系统地以计算机模拟了由电子气体组成的等离子体中的各种电磁波。在无外加静磁场、加外横磁场、加外纵向磁场等不同情况下,分别得到静电波、电磁波、寻常波、非寻常波、ω=nω_c的磁回旋共振、左旋波、右旋波等。其色散关系、截止频率、共振频率、极限相速度均与理论结果一致。 相似文献
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采用考虑粒子温度各向异性热等离子体介电张量模型,借助磁化、均匀密度分布等离子体中电磁波的一般色散关系,在低磁场、低气压螺旋波等离子体典型参量条件下,理论分析了电子温度各向异性对电磁模式传播特性和角向对称模功率沉积的影响.研究结果表明:对于给定的纵向静磁场B0(或波频率ω),存在一个临界波频率ωcr(或纵向静磁场B0,cr),当ω>ωcr(或B00,cr)时,电子回旋谐波遭受的阻尼开始显著增大;相比粒子温度各向同性情形,粒子温度各向异性彻底改变了波的传播特性,即相位常数和衰减常数均出现峰值现象;在考虑电子有限拉莫尔半径效应和电子温度各向异性情形下,Trivelpiece-Gould (TG)波碰撞阻尼在整个电磁波功率沉积中占据主导地位,电子纵向温度Te,//存在某一临界值,在此临界值处TG波功率沉积出现峰值Pabs,TG,且随着Te,⊥/Te,//的减小,... 相似文献
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研究了平面电磁波在磁化、稳定、二维、非均匀等离子体中的传播特性;采用等效输入阻抗方法计算非均匀磁化等离子体层对不同模式入射电磁波的功率吸收情况。结果表明,电子数密度、碰撞频率和外磁场大小是等离子体对电磁波功率吸收的主要影响因素。采用等效介电常数的方法模拟等离子体特性,代入有限元软件进行平面电磁波入射等离子体仿真,得到了非寻常波与右旋极化波的吸收特性。根据数值计算和全波仿真结果可知,当等离子体密度为1017 m-3、碰撞频率2.5 GHz、外加磁场的磁感应强度为0.15 T时,磁化等离子体对电磁波有强烈的吸收特性。 相似文献
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采用流场模拟软件模拟了十一组分RAM-II飞行器表面等离子体鞘套的分布,提取了四个典型飞行高度、飞行状态下的等离子体鞘套的分布信息.然后根据RAM-II飞行器等离子体鞘套数据,利用计算色散介质的Z变换FDTD方法主要计算了电磁波在四个不同高度处等离子体鞘套中的功率反射系数和功率透射系数.此外,根据目前可以做出的磁场强度的大小,对四个不同高度下的非均匀等离子体鞘套层按距飞行器表面的距离进行相应的非均匀磁化.由于左旋极化波和右旋极化波在磁化等离子体中的传输特性不同,最后对比了左旋极化波、右旋极化波在非磁化和磁化情况下的传输特性,对飞行器导航通信磁窗天线的设计给出建议. 相似文献
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采用一般的径向密度非均匀分布假设,借助温等离子体介电张量模型,利用磁化等离子体中电磁波的一般色散关系,在高密度峰值、低磁场、低气压典型参量条件下,重点分析了电子温度各向异性对螺旋波m=1角向模功率沉积特性的影响.研究结果表明:在典型螺旋波等离子体电子温度范围(3, 8) e V内,电子有限拉莫尔半径效应应当予以考虑,而离子有限拉莫尔半径效应可以忽略.低磁场条件下|n|> 1次回旋谐波对介电张量元素的贡献可以忽略.碰撞阻尼在功率沉积中占据主导地位,功率沉积在偏离等离子体柱中心轴的某一径向位置出现峰值,随着轴向电子温度Te, z的增大,功率沉积强度逐渐增强.相比等离子体温度各向同性情形,等离子体温度各向异性显著改变了螺旋波m=1角向模的功率沉积特性,电子温度各向异性因子χ=Te,⊥/Te, z的增大或减小均导致功率沉积强度发生剧烈改变. 相似文献
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采用空间透射波测量方法,实验研究透波密闭石英玻璃容器内等离子体喷流对垂直和水平极化电磁波的衰减,在有和无外加磁场条件下分析实验参数对等离子吸波效应的影响,分析等离子体的吸波机理.实验结果表明在非磁和本实验条件下,平面电磁波在等离子体中的衰减机理为碰撞吸收;在有磁和本实验条件下,平面电磁波在磁等离子体中的衰减机理同样为碰撞吸收,但是外加磁场的存在有限地改善了等离子体的吸波效应.为了使磁等离子体最有效地吸收电磁波,应该提高磁场感应强度,把高频混杂频率提高到测试微波频率范围内,或降低微波测试频率至本实验中的高混
关键词:
等离子体相互作用
电磁波
电磁波在等离子体中的传输 相似文献
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In this paper, the properties of extraordinary mode for two types of three-dimensional magnetized plasma photonic crystals (3D MPPCs) composed of homogeneous dielectric and magnetized plasma with diamond lattices are theoretically investigated for electromagnetic (EM) wave based on a modified plane wave expansion (PWE) method, as Voigt effects are considered. As EM wave propagates in such 3D MPPCs, the EM wave can be divided in two modes due to the influence of Lorentz force. One is named extraordinary mode and another is ordinary mode. The equations for calculating the dispersive relationships for extraordinary mode as propagating through two types of structures (dielectric spheres immersed in magnetized plasma background or vice versa), are theoretically deduced. The influences of dielectric constant of dielectric, plasma collision frequency, filling factor, the external magnetic field and plasma frequency on the properties of extraordinary mode for both types of MPPCs are investigated in detail, respectively, and some corresponding physical explanations are also given. From the numerical results, it has been shown that not only the locations but also bandwidths and relative bandwidths of the photonic band gaps obtained by extraordinary mode for both types of 3D MPPCs can be manipulated by plasma frequency, filling factor, the external magnetic field and the relative dielectric constant of dielectric, respectively. However, the plasma collision frequency has no effect on the frequency ranges and relative bandwidths of PBGs for two types of 3D MPPCs. The locations of flatbands regions cannot be tuned by any parameters except for plasma frequency and the external magnetic field. 相似文献
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Interaction of Bernstein mode wave with ion-acoustic turbulence is treated as the plasma maser effect. Ion-acoustic turbulence
is considered as resonant mode, propagating orthogonal to the test Bernstein mode. The external magnetic field, in the direction
of ion-acoustic turbulence, is playing key role in transferring energy in upconversion process from resonant low frequency
wave to the high frequency wave through modulated electric field. It is shown that the direct coupling term and the associated
reverse absorbtion effect do not contribute individually to the growth or damping to the Bernstein mode. Only the polarization
coupling term is found to be effective in the energy upconversion process as the external magnetic field is providing momentum
in the direction of propagation of Bernstein mode. The polarization coupling term is identified to be the dominant upconversion
factor in the plasma maser effect. 相似文献
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本文通过对高介电常数介质基于介质谐振器理论进行分析,明确了利用高介电常数介质产生负介电常数或负磁导率的途径在于介质中产生具有Lorentz谐振形式的电磁响应的电偶极子或磁偶极子,指出了这种偶极子的产生来源于电磁波在介质中形成的驻波,而左手通带的形成正是由于电偶极子和磁偶极子之间的相互影响,破坏了驻波形成的条件所实现的. 模拟结果表明,通过将尺寸相同,介电常数不同的介质进行组合,使二者电谐振和磁谐振的频率点重合从而实现左手通带,最后利用高介电常数,低损耗的陶瓷进行样品制作并测试,测试结果证实了基于这一原理实
关键词:
全介质左手材料
介质谐振器
磁偶极子
电偶极子 相似文献
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F. M. Nekrasov A. G. Elfimov C. A. de Azevedo A. S. de Assis 《Czechoslovak Journal of Physics》1997,47(8):801-819
The Vlasov equation for charged particles is analyzed in an axially symmetric toroidal plasma configuration with an elliptic
cross section of magnetic surfaces. The asymptotic solution of the Vlasov equation is found. The analytical expressions for
the perpendicular component of the dielectric permittivity tensor are obtained. These expressions are used for theoretical
analyses of the trapped and untrapped ion influence on the collisionless cyclotron wave dissipation. The evaluated dielectric
tensor components can be used for computer calculations of the radio frequency field structure and the collisionless dissipated
power related to trapped and untrapped ions in tokamak plasmas. It is shown that ion cyclotron resonance dissipation in tokamaks
depends on toroidicity and ellipticity parameters and does not depend on plasma temperature.
This work was supported by the State University of Rio de Janeiro (UERJ), Rio de Janeiro Research Foundation (FAPERJ) and
Brazilian National Council of Research (CNPq). 相似文献
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Chang S.-F.R. Scharer J.E. Booske J.H. 《IEEE transactions on plasma science. IEEE Nuclear and Plasma Sciences Society》1992,20(3):293-304
The hybrid-mode dispersion relation and resonant growth rates are solved for a finite-thickness sheet electron beam propagating through a rectangular guide with a thin dielectric slab. Analytic results for the growth rates, bandwidth and mode competition for an infinite magnetic field in the limit of a dilute beam are then presented. To properly couple to the desired EH10 hybrid amplifier slow wave mode, the coupled waveguide mode equations are solved for a dielectric taper to accomplish the TE10 to EH10 mode transition. A piecewide linear taper which suppresses the competing EH11 mode and other hybrid modes is developed and the overall amplifier system is discussed 相似文献