We report a true left-handed (LH) behavior in a composite metamaterial consisting of periodically arranged split ring resonator (SRR) and wire structures. The magnetic resonance of the SRR structure is demonstrated by comparing the transmission spectra of SRRs with that of closed SRRs. We confirmed experimentally that the effective plasma frequency of the LH material composed of SRRs and wires is lower than the plasma frequency of the wires. A well-defined left-handed transmission band with a peak value of -1.2 dB (-0.3 dB/cm) is obtained. We also report the transmission characteristics of a 2D composite metamaterial (CMM) structure in free space. At the frequencies where left-handed transmission takes place, we experimentally confirmed that the CMM structure has effective negative refractive index. Phase shift between consecutive numbers of layers of CMM is measured and phase velocity is shown to be negative at the relevant frequency range. Refractive index values obtained from the refraction experiments and the phase measurements are in good agreement. The experimental results agree extremely well with the theoretical calculations.
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机译:我们报告了由周期排列的裂环谐振器(SRR)和金属丝结构组成的复合超材料中的真正左手(LH)行为。通过比较SRR与封闭SRR的透射光谱,可以证明SRR结构的磁共振。我们通过实验证实,由SRR和导线组成的LH材料的有效等离子体频率低于导线的等离子体频率。获得了明确定义的左手传输带,其峰值为-1.2 dB(-0.3 dB / cm)。我们还报告了二维复合超材料(CMM)结构在自由空间中的传输特性。在左手传输发生的频率上,我们通过实验证实了CMM结构具有有效的负折射率。测量了连续三坐标测量机各层之间的相移,在相关频率范围内相速度显示为负。从折射实验和相测量获得的折射率值非常一致。实验结果与理论计算非常吻合。
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