可控Metamaterial与结构的电磁波吸收特性研究

材料导报, 2007, 21(5): 132-137.

可控Metamaterial与结构的电磁波吸收特性研究

许占显 ^1, , 林为干 ^2, , 孔立堵 ^3,

1.电子科技大学电子工程学院,成都,610054;空军第一航空学院,信阳,464000

2.电子科技大学电子工程学院,成都,610054

3.空军第一航空学院,信阳,464000

基金项目: 国家自然科学基金(60671028)

关键词：可控吸波结构 , 超电磁材料 , ANSOFT HFSS仿真 , 雷达散射截面(RCS)

Research of Electromagnetic Wave Absorbing Characteristic of Controllable Metamaterial and Structure

提出了一种可控超电磁材料Metamatrial与结构,研究了在4～10GHz范围内的电磁波传输系数与单站雷达散射截面(RCS)的电可控特性.对开口谐振环(Split ring resonators,SRRs)和带有p-i-n二极管的金属细线阵列,通过对间断处置有的5个p-i-n二极管施加电压来改变介质和整个结构的电参数的有效特性,从而实现电磁渡的传榆特性控制和此种材料与结构的电控制.应用金属波导理论、ANSOFT HFSS,高、低阻抗表面(HLIS)和辐射边界条件等模拟传输系数和单站雷达散射截面(RCS),得出整个超电磁.Metamatrial材料与结构在谐振频带6.0GHz附近有好的近似导通与截止的控制特性;对于垂直入射的平面波,在不加铁氧体情况下RCS可减小-5dBm,传输系数约-30dB(5.4GHz附近);添加铁氧体其谐振频率将朝低频发生位移,在谐振点附近传输特性表现为更差,而通、断可控特性表现为传输系数可调范围约-28dB,RCS可调范围约-10dBm.

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