Broadband wave-adsorbing and scattering adjustable metasurface

A metasurface and broadband technology, applied in the field of metasurface, can solve the problems of single control method, difficult to deal with electronic countermeasure environment, insufficient bandwidth, etc., and achieve the effect of high application value, simple structure and mature processing technology.

Inactive Publication Date: 2019-06-18
SOUTHEAST UNIV
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  • Abstract
  • Description
  • Claims
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Problems solved by technology

However, the existing active metasurface stealth technology only achieves the purpose of stealth by adjusting the absorption loss of the incident electromagnetic wave or the scattering beam. The con

Method used

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  • Broadband wave-adsorbing and scattering adjustable metasurface
  • Broadband wave-adsorbing and scattering adjustable metasurface
  • Broadband wave-adsorbing and scattering adjustable metasurface

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Embodiment Construction

[0024] The present invention will be further described below in conjunction with accompanying drawing:

[0025] figure 1 is the model schematic diagram of the designed 1-bit electromagnetic encoding metasurface. The metasurface array is composed of N*N grids with side length p, and each grid is composed of metasurface units representing the same encoding. Unlike traditional equivalent medium metamaterials that achieve specific functions by designing the dielectric constant and permeability distribution of the material, the coded metasurface (take the 1-bit coded metasurface as an example) chooses a metasurface with equal or close amplitude and a phase difference close to 180°. The two basic units can be represented by the binary numbers "0" and "1". By arranging the "0" units and "1" units in an array according to certain rules, specific functions can be realized. In the actual design, as long as the arrangement of the "0"\"1" units of the metasurface is changed, that is, the...

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Abstract

The invention discloses a broadband wave-adsorbing and scattering adjustable metasurface. The metasurface is formed by the periodic arrangement of the same units, wherein each unit consists of an upper-layer metal structure, an active device, a middle-layer medium and a lower-layer metal backboard; a PIN diode is welded to the corresponding position of the upper-layer metal structure; the upper-layer metal structure is positioned above the middle-layer medium; and the middle-layer medium is positioned above the lower-layer metal backboard. The bias voltage of the metasurface PIN diode is changed to realize the switching of a wave-adsorbing mode and a scattering mode, wherein the wave-adsorbing mode is characterized in that the vertical reflectivity of the metasurface in a 8-10GHz frequencyband is dynamically adjustable; and the scattering mode is characterized in that the reflection phase difference of two working states of "on/off" of the unit PIN diode 8-10GHz frequency band is 180+/-20 degrees, a reflection amplitude difference is smaller than 1dB, and different electromagnetic codes are input into the metasurface through a FPGA (Field Programmable Gate Array) control system torealize the dynamic regulation and control of a scattering directional diagram. The designed metasurface has the advantages of simple structure, mature technology and low energy consumption and has agood application prospect in the fields of military and civil use.

Description

technical field [0001] The invention belongs to the field of radar stealth and new artificial electromagnetic materials, in particular to a metasurface with adjustable broadband absorbing and scattering. Background technique [0002] The "active" camouflage and stealth technology for radar wave detection is a further development of traditional camouflage and stealth technology, that is, through artificial means to purposefully and dynamically control or reduce the radar characteristic signal of the target, making it difficult to be discovered, identified and attacked. Stealth technology is a frontier topic that all countries attach great importance to, and is closely related to the country's national defense strength. In order to weaken the detection capability of the enemy's radar, vigorously develop the electromagnetic stealth and camouflage technology for military targets and important civilian targets, especially the new radar wave stealth and camouflage technology for c...

Claims

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Application Information

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IPC IPC(8): H01Q17/00H01Q15/00
Inventor 程强杨刘曦袁巍柯俊臣张琤杨进陈明正崔铁军
Owner SOUTHEAST UNIV
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