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Terahertz code metasurface for wide-frequency-band radar scattering cross section reduction

A radar cross section and metasurface technology, applied in the field of terahertz coding metasurface, can solve the problems of reducing the radar cross section, difficult to coat materials, difficult to process, etc. Effect

Active Publication Date: 2015-06-17
ZAOZHUANG UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

In addition, metasurface absorbers still have defects such as narrow bandwidth, especially in the terahertz band. Using multi-layer metamaterials can broaden the bandwidth of the frequency band, but it is difficult to process
For the use of new wave-absorbing coating materials to reduce the radar cross-section, it is difficult to obtain coating materials that respond in the terahertz band

Method used

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  • Terahertz code metasurface for wide-frequency-band radar scattering cross section reduction
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  • Terahertz code metasurface for wide-frequency-band radar scattering cross section reduction

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Embodiment Construction

[0026] Below in conjunction with accompanying drawing and specific embodiment, further illustrate the present invention, should be understood that these embodiments are only for illustrating the present invention and are not intended to limit the scope of the present invention, after having read the present invention, those skilled in the art will understand various aspects of the present invention Modifications in equivalent forms all fall within the scope defined by the appended claims of this application.

[0027] 1. Design of terahertz flexible 2bit coded electromagnetic metasurface

[0028] In order to design an electromagnetic metasurface to realize the reduction of radar cross section in terahertz broadband, various metasurface structures have been studied. But they seldom take into account integration, ease of production, and processing costs. Based on these, a single-layer flexible terahertz wide-passband encoding 2bit electromagnetic metasurface is designed. In ord...

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Abstract

The invention discloses a novel flexible terahertz 2bit code metasurface for wide-frequency-band radar scattering cross section reduction. The novel flexible terahertz 2bit code metasurface involves the following steps that electromagnetic field software is used for designing the structural shapes and parameters of four elements of '00', '01', '10' and '11' under optimization of the structural parameters, and the 2bit code metasurface achieving terahertz broadband nondirectional scattering, namely diffuse reflection, is optimized; on the basis of optimizing the 2bit code metasurface, a silicon wafer is coated with a polyimide film with a needed thickness; a needed code metasurface is prepared on the polyimide film through traditional micromachining technology, the silicon wafer is removed on the basis of the prepared 2bit code metasurface, and on the basis that the silicon wafer is removed, a gold film with a needed thickness is evaporated on the polyimide film on the other surface of a metal-free structure; terahertz broadband radar scattering cross section reduction is achieved, and simulation and experiment results show that the radar scattering cross section reduction can reach above 10 dBsm within the range from 0.66 THz to 1.26 THz.

Description

technical field [0001] The invention relates to a terahertz coding metasurface with reduced wide-band radar scattering cross-section, in particular to a novel meta-surface capable of reducing the terahertz wide-band radar scattering cross-section. Background technique [0002] Terahertz waves have the characteristics of broadband, low energy, and strong penetration, and show broad application prospects in high spatial resolution, military radar, and high-sensitivity detection. In these applications, not only stable terahertz radiation sources and detectors are required, but also terahertz devices with various functions are required to regulate the reflection, scattering, and transmission of terahertz waves, especially in military radar stealth. [0003] In order to achieve radar stealth, mainly by reducing the target radar echo signal. The physical quantity to measure the strength of target radar echo signal is radar cross section. The methods to reduce the radar cross sec...

Claims

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Application Information

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IPC IPC(8): G01S7/48
CPCG01S7/495G01S17/02
Inventor 梁兰菊闫昕韦德泉李院平张兴坊
Owner ZAOZHUANG UNIV
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