Carpet cloak with graded dielectric metasurface (Presentation Recording)

SPIE NanoScience + Engineering Pub Date : 2015-10-05 DOI:10.1117/12.2188613

L. Hsu, T. Lepetit, B. Kanté

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Abstract

We demonstrate a method to hide a Gaussian-shaped bump on a ground plane from an incoming plane wave. In essence, we use a graded metasurface to shape the wavefronts like those of a flat ground plane[1,2].The metasurface provides additional phase to the electromagnetic field to control the reflection angle. To mimic a flat ground plane, the reflection angle is chosen to be equal to the incident angle. The desired phase distribution is calculated based on generalized Snell’s laws[3]. We design our metasurface in the microwave range using sub-wavelength dielectric resonators. We verify the design by full-wave time-domain simulations and show that the result matches our theory well. This approach can be applied to hide any object on a ground plane not only at microwave frequencies but also at higher frequencies up to the infrared. 1. Jensen Li and J. B. Pendry, Hiding under the Carpet: A New Strategy for Cloaking. Phys. Rev. Lett. 101, 203901 (2008) 2. Andrea Alu, Mantle cloak: Invisibility induced by a surface. Phys. Rev. B 80, 245115 (2009) 3. Yu N, et al. Light propagation with phase discontinuities: Generalized laws of reflection and refraction. Science 334(6054):333–337 (2011)

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带渐变介电超表面的地毯斗篷(演示记录)

我们演示了一种从入射平面波中隐藏地平面上高斯形状凸起的方法。本质上，我们使用一个渐变的超表面来塑造波前，就像平坦地平面的波前一样[1,2]。超表面为电磁场提供额外的相位来控制反射角。为了模拟平坦的地平面，反射角选择等于入射角。根据广义斯涅尔定律[3]计算了期望相位分布。我们使用亚波长介电谐振器设计微波范围内的超表面。通过全波时域仿真对设计进行了验证，结果与理论吻合较好。这种方法不仅可以用于隐藏微波频率的地平面上的任何物体，还可以用于隐藏更高频率的红外物体。1. 詹森·李和j·b·彭德里，《隐藏在地毯下:一种新的隐身策略》。理论物理。Rev. Lett. 101, 203901 (2008)安德里亚·阿卢，斗篷:由表面引起的隐形。理论物理。[j] .生物工程学报，2009,24(5):391 - 391。于宁，等。相位不连续的光传播:反射和折射的广义定律。Science 334(6054): 333-337 (2011)

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