基于介质谐振器原理的左手材料设计  

All-dielectric left-handed metamaterial design based on dielectric resonator theory

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作  者:杨一鸣[1] 屈绍波[1,2] 王甲富[1] 赵静波[1] 柏鹏[3] 李哲[3] 夏颂[2] 徐卓[2] 

机构地区:[1]空军工程大学理学院,西安710051 [2]西安交通大学电子材料与器件教育部重点实验室,西安710049 [3]空军工程大学综合电子信息系统研究中心,西安710051

出  处:《物理学报》2011年第7期262-269,共8页Acta Physica Sinica

基  金:国家自然科学基金(批准号:50632030;10804130;60871027)资助的课题~~

摘  要: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现左手材料的可行性.By analyzing dielectric cube with high permittivity based on dielectric resonator theory, a new approach to the analyzing of left-handed metamaterials simultaneously with negative permittivity and negative permeability is proposed. The approach indicates that dipoles with Lorentz-type resonance electromagnetic responses can realize negative effective parameters in their negative resonant region. The dipole originates from standing wave in high permittivity dielectric cube. By combining electric dipole with magnetic dipole together, the interaction between two kinds of dipoles will destroy the standing wave and realize a left-handed passband. Numerical simulations indicate that by combining dielectric cubes with same sizes but different permittivities together, the electric resonant frequency and the magnetic resonant frequency can be coincident. Finally, experiments are carried out to verify the feasibility of all-dielectric left-handed metamaterial constructed by this means.

关 键 词:全介质左手材料 介质谐振器 磁偶极子 电偶极子 

分 类 号:O441.6[理学—电磁学]

 

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