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表面等离子体可以将光子局域在金属表面附近, 并形成很强的近场能量密度, 可以大大提高金属表面附近分子的发光效率和光电转换吸收材料的利用率, 从而提高发光器件和光电转换器件的效率. 本文研究了在一维周期性金属-介质混合结构的光栅中表面等离子体激元的耦合条件, 给出了耦合效率随着结构和填充因子的变化, 并证明了在光栅的填充因子较高以至光栅的金属间隔较小时, 光子耦合成为表面等离子体的效率较高, 可以达到94%以上.
关键词:
表面等离子体激元
填充因子
光栅
吸收光谱 相似文献
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在激光+脉冲GMAW复合焊接过程中,焊丝端部金属熔化产生大量的金属蒸汽,导致等离子体中电子、粒子的扩散现象加剧,使得激光的传输模式和工件对激光能量的吸收率和吸收模式发生变化。基于光谱分析的方法得到了复合焊接峰值状态的电子密度和温度分布,通过高速摄影分析了不同焊接模式下等离子体形态的变化,结合Beer-Lambert吸收定律计算了不同焊接模式下激光的吸收率。结果表明,在复合焊过程中,由于焊丝端部金属被熔化,焊丝的金属蒸汽进入激光等离子体内部,导致激光匙孔上方电子密度进一步提高,等离子体吸收激光能量能力增强,使得激光的传输效率从纯激光焊的94.16%降低到了CO_2激光+脉冲GMAW复合焊的85.84%。 相似文献
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离子对电磁波传播特性的影响 总被引:2,自引:0,他引:2
对等离子体中电磁波传播的平板几何模型进行了修正, 讨论了离子对电磁波在大气压均匀非磁化弱电离等离子体中的反射、吸收和透射等传播特性的影响。数值分析的结果表明: 大气条件下, 离子对电磁波在均匀非磁化弱电离等离子体中传播特性的影响是显著的, 同时给出等离子体对电磁波的最大吸收值和吸收宽带。 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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当使用激光诱导击穿光谱技术(LIBS)测量火焰场内碱金属元素时,等离子体内碱金属原子所发出的LIBS信号,会受到等离子体外火焰中基态碱金属原子的吸收,影响测量精度。基于Beer Lambert定律和CH4 空气火焰场内气态含K物质的热力学平衡原理,建立了火焰场内K元素LIBS信号的原子吸收模型,并分析了实际生物质颗粒燃烧K元素释放浓度范围内,火焰气氛、K元素浓度分布以及总K浓度对火焰原子吸收效率的影响。研究发现,随着O2/CH4的摩尔比值的增加,火焰中热力学平衡状态下K原子占总K的比例从约25%逐步降低,火焰原子吸收效率也从86.8%逐步降低。当O2/CH4的摩尔比值大于2时,火焰尾气中会存在剩余O2,此时火焰内K原子的吸收效率均低于13%。同时,火焰中K元素浓度分布以及总K浓度的合理调整亦对火焰原子吸收效率具有降低作用。在此基础上,提出了创造氧化性气氛、调整K浓度分布来降低火焰原子吸收效率和提高LIBS测量精度的解决途径。 相似文献
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非磁化等离子体中的电子碰撞频率 总被引:12,自引:2,他引:10
电子碰撞频率是非磁化等离子体的一个重要参数,它对等离子体与电磁波相互作用的性质具有较大影响。基于产生等离子体的气压条件不同,其电子碰撞频率具有较大变化范围。研究了它对非磁化等离子体吸波能力的影响,得出了当电子碰撞频率与等离子体频率和入射波频率相当时,等离子体对电磁波具有较大吸收的结论,给出了对应于最大吸收的最佳碰撞频率值。分析了通过选择放电气体来调整等离子体的电子碰撞频率。 相似文献
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б�����Ų��ڷǾ�����ײ���������е�����ͷ������� 总被引:1,自引:0,他引:1
提出碰撞吸收型等离子体的等效折射指数,重新计算了折射角,并与利用常规方法得到的折射角进行了比较。分析了等离子体密度和碰撞频率对折射角的影响。考察了斜入射电磁波在吸收型等离子体中的折射特性,并以一维非均匀碰撞吸收型等离子体为例,对斜入射电磁波的反射特性进行了考察。结果表明,等效折射指数的概念涵盖了入射角度的影响,在考察斜入射时更准确、便捷。 相似文献
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采用等离子体分层模型,利用WKB近似研究了离子回旋共振加热(ICRH)天线发射谱n||对离子回旋波在托卡马克等离子体的表面功率反射系数、吸收衰减的影响,数值模拟了不同天线发射谱n||条件下快波少数离子加热的效果.模拟结果表明,当其它实验参数一定时,ICRH天线发射合适的n||能提高天线与等离子体的耦合效率,增强少数离子加热的效果. 相似文献
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模拟和实验研究了非均匀圆柱形等离子体及阵列对微波的散射作用。利用有限时域差分(FDTD)方法仿真得到了等离子体柱的密度、碰撞频率对微波传播系数的影响,并利用低气压放电产生的等离子体柱对微波的吸收和散射作用进行了验证。结果表明:电子密度中心高、周围低的非均匀等离子体柱可将微波散射至两个侧向;等离子体频率越大,散射的微波功率越强;增加碰撞频率使等离子体柱的微波散射功率减小、吸收增大。等离子体必须具有合适的密度,才能对微波反射产生较大影响。 相似文献
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Numerical simulation methods for rough surface scattering 总被引:3,自引:0,他引:3
Numerical methods are of great importance in the study of electromagnetic scattering from random rough surfaces. This review provides an overview of rough surface scattering and application areas of current interest, and surveys research in numerical simulation methods for both one- and two-dimensional surfaces. Approaches considered include numerical methods based on analytical scattering approximations, differential equation methods and surface integral equation methods. Emphasis is placed on recent advances such as rapidly converging iterative solvers for rough surface problems and fast methods for increasing the computational efficiency of integral equation solvers. 相似文献
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Scharer J.E. Eldridge O.C. Chang S.-F.R. Zhang Y.-S. Bettenhausen M.H. Lam N.T. 《IEEE transactions on plasma science. IEEE Nuclear and Plasma Sciences Society》1993,21(3):271-281
Broadband microwave propagation and absorption processes and backscatter from objects immersed in a magnetized, finite, warm plasma column is addressed. In particular, the propagation, absorption, and backscatter of electron cyclotron waves are measured and compared with bounded vacuum hot plasma wave propagation, absorption, and ray tracing theory. The nonreciprocal nature of the transmission and absorption in an anisotropic plasma is measured. A homodyne technique which isolates the scattering from a single object in the plasma from the scattering from all other objects in the plasma and the walls of the containment device is developed and utilized. The range of absorption frequencies and nonreciprocity of the transmission signal are shown to be well correlated with wave trajectories in the associated regions of the Clemmow-Mullaly-Allis (CMA) diagram. It is shown that quasi-parallel propagation of electron cyclotron waves near resonance is present and that the transverse effects of wavenumber on propagation in the cylindrical plasma are small 相似文献
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《Waves in Random and Complex Media》2013,23(1):R1-R30
Abstract Numerical methods are of great importance in the study of electromagnetic scattering from random rough surfaces. This review provides an overview of rough surface scattering and application areas of current interest, and surveys research in numerical simulation methods for both one- and two-dimensional surfaces. Approaches considered include numerical methods based on analytical scattering approximations, differential equation methods and surface integral equation methods. Emphasis is placed on recent advances such as rapidly converging iterative solvers for rough surface problems and fast methods for increasing the computational efficiency of integral equation solvers. 相似文献
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The paper describes the measurement of an electron density of the plasma generated by means of helical slow-down structures at microwave frequencies inside glass tubes of different diameters. Besides, the efficiency of an absorption of the microwave energy in a plasma column on the magnitude of a confining static magnetic field is given. Obtained results can be used for design of microwave sources of the plasma. 相似文献
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For the computational solution of the acoustic scattering problem, new domain integral equations are proposed. These domain integral equations describe the acoustic wave propagation in some chosen inhomogeneous background, whereas the influence of the scattering object is viewed as a superposition of contrast sources. A stretching procedure of the inhomogeneous background to a homogeneous one leads to a domain integral equation in a stretched space, where the Green function has the same simple functionality as the one of the non-stretched homogeneous background. This leads to improved efficiency in the computation of the scattering problem at hand. 相似文献
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A surface integral equation together with the multilevel fast multipole algorithm is successfully applied to fast and accurate resolution of plasmonic problems involving a large number of unknowns. The absorption, scattering, and extinction efficiencies of several plasmonic gold spheres of increasing size are efficiently obtained solving the electric and magnetic current combined-field integral equation. The numerical predictions are compared with reference analytic results to demonstrate the accuracy, suitability, and capabilities of this approach when dealing with large-scale plasmonic problems. 相似文献
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LU QuanKang 《理论物理通讯》2000,33(4):639-642
Recently, laser and microwave scatterings have become one of the important diagnostic means for plasma. Laser and microwave correlative scattering spectrum is determined by particle-density fluctuations in a weak turbulent plasma. In a relativistic plasma, on the basis of complete electromagnetic interaction between particles, a general expression for particle density fluctuations and spectra of laser and microwave scattering from a magnetized plasma are derived. The laser and microwave scattering spectra provide information on electron density and temperature, ion temperature, resonance and nonresonance effects. 相似文献
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Simple and accurate integral equation formulation using a three dimensional finite element (3DFEM) to determine the propagation of microwave passive structures is presented. This technique is applied to solve the scattering problems due to various forms of irises in lossless rectangular waveguide.The analysis of these components is highly dependent of the numbers of modes considered in the neighbourhood of the discontinuity. The theoretical model is compared with measurements and Mode Matching Method (MMM). Results are found to be good agreement. 相似文献