Wideband spirally-coding radar cross-section (RCS) reducing metasurface insensitive to polarization and design method thereof

A metasurface and helical technology, applied in electrical components, antennas, etc., to solve problems such as time-consuming and labor-intensive

Active Publication Date: 2017-12-12
AIR FORCE UNIV PLA
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

In 2007, the artificial magnetic conductor (AMC) metasurface with checkerboard structure was first applied in the field of RCS reduction. Although its narrow-band characteristics, polarization sensitivity and specific region (backward) RCS reduction limit its practical application, the method It has greatly stimulated people's research upsurge on broadband, polarization insensitivity, large-angle incidence and dual-station RCS reduction. It is expected that this technology can be used in practice one day and become a new stealth material to replace traditional RAM

Method used

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  • Wideband spirally-coding radar cross-section (RCS) reducing metasurface insensitive to polarization and design method thereof
  • Wideband spirally-coding radar cross-section (RCS) reducing metasurface insensitive to polarization and design method thereof
  • Wideband spirally-coding radar cross-section (RCS) reducing metasurface insensitive to polarization and design method thereof

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Embodiment

[0046] Example: the size is 288×288mm 2 Ultra-broadband RCS reduction results of a single-helix cycle-encoded metasurface

[0047] The RCS reduction results of the metasurface designed by the above formula are described and verified below. The metasurface is irradiated with x and y polarized waves respectively, and the results are as follows Figure 10 shown. It can be seen that no matter it is excited by x-polarized waves or y-polarized waves, the single helical cyclic coding metasurface can reduce the backward RCS very well, and has almost the same scattering spectral response, which verifies the polarity of the metasurface of the present invention. chemical insensitivity. At the same time, the RCS reduction spectrum results show that the single helical cyclic coding metasurface has excellent RCS reduction characteristics in the range of 13-23GHz, and the RCS reduction values ​​exceed 10dB.

[0048] In order to verify the bistatic RCS reduction characteristics of the met...

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Abstract

The invention belongs to the technical field of radar stealth, and particularly relates to a wideband spirally-coding radar cross-section (RCS) reducing metasurface insensitive to polarization and a design method thereof. The metasurface is of a two-dimensional limited size structure and is formed by arranging eight types of linear super-elements having different gradient directions in 8 by 8 according to a spiral sequence, the gradient directions of eight types of linear super-elements are respectively 0 degree, 45 degrees, 90 degrees, 135 degrees, 180 degrees, 225 degrees, 270 degrees and 315 degrees, each linear super-element is of a two-dimensional limited size structure and is formed by six types of artificial electromagnetic structure units having different sizes in 6 by 6 according to linear gradient, the six types of artificial electromagnetic structure units realize 360-degree coverage, the phase gradient is 60 degrees, the spiral sequence is a single spiral circulation arrangement mode from outside to inside, each artificial electromagnetic structure unit is of a rotary symmetric reflection structure and comprises an upper-layer internal closed ring, an external Jerusalem metal structure, an intermediate-layer dielectric plate and a bottom-layer metal copper plate. The RCS reducing metasurface has the excellent characteristics of thin thickness, good robustness, ultra-wideband working and the like and is easy to process.

Description

technical field [0001] The invention belongs to the technical field of radar stealth, and in particular relates to an ultra-wideband, polarization-insensitive RCS reduction metasurface and a design method thereof based on a single spiral cyclic code arrangement and a linear phase gradient. Background technique [0002] With the rapid development of radar detection technology, stealth characteristics have gradually become an important indicator to measure the performance of flying targets. The detection of radar targets mainly depends on the radar cross section (RCS) of the detected object. Therefore, reducing the RCS becomes the most important means to achieve stealth. The traditional stealth technology mainly realizes the reduction of RCS by changing the shape of the flying target and coating the radar absorbing material (RAM). 4 layers of RAM to maximize RCS reduction. F-22 Raptor is also used in a similar way to achieve radar stealth. However, due to the aerodynamic lim...

Claims

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Application Information

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IPC IPC(8): H01Q15/00H01Q15/14
CPCH01Q15/0013H01Q15/14
Inventor 许河秀王光明袁方彭清
Owner AIR FORCE UNIV PLA
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