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周期性磁谐振材料本构参数的理论分析
引用本文:徐新河,肖绍球,甘月红,王秉中. 周期性磁谐振材料本构参数的理论分析[J]. 物理学报, 2013, 62(10): 104105-104105. DOI: 10.7498/aps.62.104105
作者姓名:徐新河  肖绍球  甘月红  王秉中
作者单位:1. 电子科技大学应用物理研究所, 成都 610054;2. 南昌航空大学, 南昌 330063
摘    要:
将薄的磁谐振介质板等效为面磁流, 利用周期性边界条件, 给出了面磁流的指数形式. 通过计算无穷个面磁流在不同空间位置上产生的总电场和总磁场, 推导出了周期性磁谐振人工材料的色散关系和布洛赫阻抗, 进而获取了布洛赫本构参数的理论计算公式. 由于考虑了磁谐振人工材料中的电反谐振对布洛赫介电常数和磁导率的影响, 所以基于仿真实验的布洛赫本构参数的提取值和布洛赫本构参数理论预测值之间的误差很小, 这说明本文推导的布洛赫本构参数的理论计算公式在描述周期性磁谐振材料的电磁特性方面是十分有效的. 这些理论公式将在解释磁谐振现象、设计和优化周期性磁谐振材料等方面提供重要的理论依据.关键词:周期性结构磁谐振布洛赫本构参数面磁流

关 键 词:周期性结构  磁谐振  布洛赫本构参数  面磁流
收稿时间:2012-08-29

Theoretical analysis of constitutive parameters for the periodic magnetic resonator metamaterials
Xu Xin-He,Xiao Shao-Qiu,Gan Yue-Hong,Wang Bing-Zhong. Theoretical analysis of constitutive parameters for the periodic magnetic resonator metamaterials[J]. Acta Physica Sinica, 2013, 62(10): 104105-104105. DOI: 10.7498/aps.62.104105
Authors:Xu Xin-He  Xiao Shao-Qiu  Gan Yue-Hong  Wang Bing-Zhong
Abstract:
The thin magnetic resonance dielectric plate is equivalent to a surface magnetic current. Using periodic boundary conditions, the exponential form of the surface magnetic current density is given. The dispersion relation and Bloch impedance of a periodic magnetic resonator metamaterial are derived by calculating the total electric and magnetic fields at the different positions excited by the infinite number of surface magnetic currents, and thus the theoretical formulas for Bloch constitutive parameters are obtained. Since the electric anti-resonance influence on the Bloch permittivity and permeability of magnetic resonator metamaterial is considered, thus the Bloch constitutive parameter difference between theoretical values and retrieval results based on simulations is very small, which shows that the Bloch constitutive parameter formula derived in the paper is very effective to describe the electromagnetic properties of the periodic magnetic resonant material. These theoretical formulas will provide important theoretical basis for the interpretation of the magnetic resonance phenomenon, the design and optimization of the periodic magnetic resonant material.
Keywords:periodic structuremagnetic resonanceBloch constitutive parameterssurface magnetic current
Keywords:periodic structure  magnetic resonance  Bloch constitutive parameters  surface magnetic current
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