Three-dimensional large-aperture lens antennas with gradient refractive index

We propose an accurate method for designing three-dimensional （3D） large-aperture metamaterial slab lens antennas with gradient refractive index （GRIN）. According to the geometric optics, Fermat principle, ray-tracing technique and impedance matching, the 3D GRIN slab lenses with large apertures are...

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Published in	Science China. Information sciences Vol. 56; no. 12; pp. 112 - 123
Main Authors	Zhou, XiaoYang, Zou, XiaYing, Yang, Yan, Ma, HuiFeng, Cui, TieJun
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.12.2013 Springer Nature B.V
Subjects	Antennas Aperture Apertures Circuit boards Computer Science Diameters Directivity Drilling Effective medium theory Fermat principle Geometrical optics Gradient index optics GRIN透镜 Horn antennas Impedance matching Information Systems and Communication Service Lens antennas Lenses Metamaterials Ray tracing Refractivity Slabs Special Focus Superhigh frequencies Three dimensional Unit cell 三维光圈有效介质理论梯度折射率追踪技术透镜天线镜头 high gain lens antenna wideband gradient index material microwave
Online Access	Get full text
ISSN	1674-733X 1869-1919
DOI	10.1007/s11432-013-5038-8

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Abstract	We propose an accurate method for designing three-dimensional （3D） large-aperture metamaterial slab lens antennas with gradient refractive index （GRIN）. According to the geometric optics, Fermat principle, ray-tracing technique and impedance matching, the 3D GRIN slab lenses with large apertures are accurately designed and simulated. With the aid of the effective medium theory, an X-band and a Ku-band conical horn antennas loaded with the 3D GRIN slab lenses of 250-mm diameter are experimentally realized using the drilling-hole technique on the printed circuit boards （PCBs） as the unit cells of metamaterials. Compared to the traditional dielectric lens with the same aperture, the proposed antennas have very good performance with high directivity, and the gain is increased by 2 to 5 dB. Using the same method, we design and realize a huge-aperture GRIN lens in the X band with a diameter of 1000 mm, which is composed of nearly one millions of inhomogeneous unit cells of square-ring resonators and dielectric blocks with drilling holes. Due to the huge aperture size, the electromagnetic ray paths inside and outside of the GRIN lens are verified and optimized using the ray tracing technique. Measurement results show good performance of the proposed antenna with high directivity.
AbstractList	We propose an accurate method for designing three-dimensional (3D) large-aperture metamaterial slab lens antennas with gradient refractive index (GRIN). According to the geometric optics, Fermat principle, ray-tracing technique and impedance matching, the 3D GRIN slab lenses with large apertures are accurately designed and simulated. With the aid of the effective medium theory, an X-band and a Ku-band conical horn antennas loaded with the 3D GRIN slab lenses of 250-mm diameter are experimentally realized using the drilling-hole technique on the printed circuit boards (PCBs) as the unit cells of metamaterials. Compared to the traditional dielectric lens with the same aperture, the proposed antennas have very good performance with high directivity, and the gain is increased by 2 to 5 dB. Using the same method, we design and realize a huge-aperture GRIN lens in the X band with a diameter of 1000 mm, which is composed of nearly one millions of inhomogeneous unit cells of square-ring resonators and dielectric blocks with drilling holes. Due to the huge aperture size, the electromagnetic ray paths inside and outside of the GRIN lens are verified and optimized using the ray tracing technique. Measurement results show good performance of the proposed antenna with high directivity. We propose an accurate method for designing three-dimensional （3D） large-aperture metamaterial slab lens antennas with gradient refractive index （GRIN）. According to the geometric optics, Fermat principle, ray-tracing technique and impedance matching, the 3D GRIN slab lenses with large apertures are accurately designed and simulated. With the aid of the effective medium theory, an X-band and a Ku-band conical horn antennas loaded with the 3D GRIN slab lenses of 250-mm diameter are experimentally realized using the drilling-hole technique on the printed circuit boards （PCBs） as the unit cells of metamaterials. Compared to the traditional dielectric lens with the same aperture, the proposed antennas have very good performance with high directivity, and the gain is increased by 2 to 5 dB. Using the same method, we design and realize a huge-aperture GRIN lens in the X band with a diameter of 1000 mm, which is composed of nearly one millions of inhomogeneous unit cells of square-ring resonators and dielectric blocks with drilling holes. Due to the huge aperture size, the electromagnetic ray paths inside and outside of the GRIN lens are verified and optimized using the ray tracing technique. Measurement results show good performance of the proposed antenna with high directivity.
Author	ZHOU XiaoYang ZOU XiaYing YANG Yan MA HuiFeng CUI TieJun
AuthorAffiliation	State Key Laboratory of Millimeter Waves, Department of Radio Engineering, Southeast University, Nanjing 210096, China
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Cites_doi	10.1109/JRPROC.1946.232264 10.1063/1.2174088 10.1126/science.1210713 10.1103/PhysRevE.71.036609 10.1063/1.3275505 10.1126/science.1125907 10.1063/1.2037202 10.1016/j.sse.2007.06.008 10.1007/s11434-010-3021-y 10.1063/1.3223608 10.1364/OL.37.004940 10.1109/TAP.2012.2237534 10.1038/nmat3292 10.1063/1.3622596 10.1109/TAP.2011.2167914 10.1002/j.1538-7305.1948.tb01331.x 10.1038/ncomms1023 10.1038/ncomms1021
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Notes	11-5847/TP gradient index material, lens antenna, high gain, wideband, microwave We propose an accurate method for designing three-dimensional （3D） large-aperture metamaterial slab lens antennas with gradient refractive index （GRIN）. According to the geometric optics, Fermat principle, ray-tracing technique and impedance matching, the 3D GRIN slab lenses with large apertures are accurately designed and simulated. With the aid of the effective medium theory, an X-band and a Ku-band conical horn antennas loaded with the 3D GRIN slab lenses of 250-mm diameter are experimentally realized using the drilling-hole technique on the printed circuit boards （PCBs） as the unit cells of metamaterials. Compared to the traditional dielectric lens with the same aperture, the proposed antennas have very good performance with high directivity, and the gain is increased by 2 to 5 dB. Using the same method, we design and realize a huge-aperture GRIN lens in the X band with a diameter of 1000 mm, which is composed of nearly one millions of inhomogeneous unit cells of square-ring resonators and dielectric blocks with drilling holes. Due to the huge aperture size, the electromagnetic ray paths inside and outside of the GRIN lens are verified and optimized using the ray tracing technique. Measurement results show good performance of the proposed antenna with high directivity. ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23
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SubjectTerms	Antennas Aperture Apertures Circuit boards Computer Science Diameters Directivity Drilling Effective medium theory Fermat principle Geometrical optics Gradient index optics GRIN透镜 Horn antennas Impedance matching Information Systems and Communication Service Lens antennas Lenses Metamaterials Ray tracing Refractivity Slabs Special Focus Superhigh frequencies Three dimensional Unit cell 三维光圈有效介质理论梯度折射率追踪技术透镜天线镜头
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