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一种加载超材料吸波体的新型二面角反射器的设计 被引量:5

A Design of A New Dihedral Corner Reflector Loaded with Meta-material Absorbing Layer
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摘要 针对传统角反射器的性能强烈依赖于入射波长、难以对抗变频雷达的探测这一问题,设计了一种加载超材料吸波体的新型角反射器,在8 GHz、11.5 GHz 以及12 GHz 这3个频点,产生近似相同的后向雷达散射截面,并对该角反射器的性能进行测试验证,结果表明:加载超材料吸波体后,在11.5 GHz 频点,其中心 RCS 值下降约2 dBsm;在12 GHz 频点,其中心 RCS 值下降约3.6 dBsm,在8 GHz 频点,其 RCS 值与普通角反射器一致,两者的 RCS 曲线无明显差别。该新型角反射器性能满足设计要求,为有效对抗 X 波段(8~12 GHz)变频雷达对角反射器假目标的探测与识别尝试了新的途径。 In view of the problem that the performance of the traditional corner reflector is strongly depend-ent on the incident wavelength which makes it difficult to avoid the detection of frequency conversion ra-dar,this paper designs a new corner reflector loaded with meta-material wave-absorbing layer,which cre-ates approximately the same backward radar cross sections respectively at frequency points of 8 GHz , 1 1.5 GHz and 12 GHz.The test on the performance of the corner reflector shows that after the loading meta-materials absorbing layer is processed,the RCS value is decreased by about 2 dBsm at 1 1.5 GHz and decreased by about 3.6 dBsm at 12 GHz,and its RCS curve and the value of the common corner reflector are almost the same at 8 GHz.With no significant difference between the RCS curves of two frequency points,the performance of the new corner reflector meets the design requirements,thus providing a new approach for the countermeasure against the detection and identification of frequency conversion radar which works at the X band wave (8~12 GHz)to the corner reflector false target.
出处 《空军工程大学学报(自然科学版)》 CSCD 北大核心 2013年第6期85-88,共4页 Journal of Air Force Engineering University(Natural Science Edition)
基金 国家自然科学基金资助项目(11204378 11274389) 陕西省自然科学基金资助项目(2011JQ8031)
关键词 角反射器 超材料 吸波 雷达散射截面 corner reflector meta-material absorbing RCS
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  • 1Lai A, Itoh T, Caloz C. Composite Transmission Line Metamaterials [ J ]. Microwave Magazine, IEEE, 2004,5 (3) :34 - 50.
  • 2Pendry J B, Schurig D,Smith D R. Controlling Electromagnetic Field [ J]. Science, 2006, 312:1780 -1782.
  • 3Cummer S A, Popa B L, Schurig D, et al. Smith, Full -wave Simulations of Electromagnetic Cloaking Structures [ J ]. Phys Rev E ,2006,74:036621.
  • 4Schurig D, Mock J J,Justice B J, et al. Metamaterial Electromagnetic Cloak at Microwave Frequencies [ J ]. Science, 2006,314 (5801) :977 -980.
  • 5Zolla F, Guenneau S, Nicolet A, et al. Electromagnetic Analysis of Cylindrical Invisibility Cloaks and the Mirage Effect [ J ]. Optics Letters,2007,32 (9) : 1069 - 1071.
  • 6Ruan Zhichao, Yan Min, Neff Curtis W, et al. Ideal Cylindrical Cloak : Perfect but Sensitive to Tiny Perturbations [ J ]. Physical Review Letters ,2007,99( 11 ) : 113903.
  • 7Kemp B A, Grzgorczyk T M, Kong J A. Optical Momentum Transfer to Absorbing Mie Particles [ J ]. Phys Rev Lett,2006, 97 (13) :133902.
  • 8Steven A Cummer, David Sehurig. One Path to Acoustic Cloaking [ J ]. New Journal of Physics ,2007,9 (3) :45.
  • 9Pendry J B, Schuri.g D, Smith D R. Controlling Electromagnetic Fields [ J]. Science, 2006, 312 : 1780 - 1782.
  • 10Leonhardt U. Optical Conformal Mapping [ J]. Science, 2006, 312 : 1777 - 1780.

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