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    • 81. 发明申请
    • Metamaterial Inclusion Structure and Method
    • 超材料包容结构与方法
    • US20100086272A1
    • 2010-04-08
    • US12245612
    • 2008-10-03
    • Jingjing LiShih-Yuan WangWei Wu
    • Jingjing LiShih-Yuan WangWei Wu
    • G02B1/00G02B6/10
    • G02B6/1226B82Y20/00G02B1/007G02F1/09G02F2202/30G02F2203/10G02F2203/15
    • A metamaterial inclusion structure (MIS), a metamaterial and a method of producing an optical magnetic response employ interspersed plasmonic and dielectric materials. The MIS includes first petals of a plasmonic material and second petals of a dielectric material that alternate at a surface and along a periphery of the MIS. The MIS exhibits the magnetic resonance when illuminated by an optical signal at an optical wavelength. The optical signal has a magnetic field component that is parallel with an interface between the first petals and the second petals. The metamaterial includes a plurality of the MIS arranged in an array and provides an optical magnetic susceptibility at the optical wavelength. The method forms the MIS with the alternating petals and includes illuminating the MIS with the optical signal.
    • 超材料夹层结构(MIS),超材料和产生光磁响应的方法采用散射等离子体和介电材料。 MIS包括等离子体激元材料的第一瓣和电介质材料的第二瓣,其在MIS的表面和周边交替。 当由光学波长的光信号照明时,MIS显示磁共振。 光信号具有与第一瓣和第二瓣之间的界面平行的磁场分量。 超材料包括排列成阵列的多个MIS,并且在光波长处提供光学磁化率。 该方法与交替的花瓣形成MIS,并且包括用光信号照射MIS。