Design method and application of wave-absorbing/wave-transmitting metasurface based on tantalum nitride material

Abstract

The invention discloses a design method and application of a wave-absorbing / wave-transmitting metasurface based on tantalum nitride material, and designs a meta-surface with dual wave-absorbing / wave-transmitting characteristics. The metasurface consists of three parts: the top is a tantalum nitride MA structure, the middle is a Teflon dielectric plate with a dielectric constant of 2.2, and the bottom is a bandpass FSS, which is used as a coating for the microstrip antenna. The metasurface used as the antenna coating is a double-layer structure, consisting of a tantalum nitride periodic structure and a frequency selective surface structure respectively and are placed on both sides of the dielectric plate. The final data results show that when the absorbing / transmitting metasurface designed in the present invention is used as the antenna coating, the radiation characteristics of the antenna are almost unchanged. The maximum RCS reduction of a single station of the antenna can reach more than 20dB, and the reduction bandwidth can reach 5GHz‑19GHz. At the same time, the single- and dual-station RCS of the antenna are also significantly reduced within a wider angle range.

Description

technical field

[0001] The invention belongs to the field of stealth technology, and in particular relates to a design method and application of a wave-absorbing / transmitting metasurface based on a tantalum nitride material. Background technique

[0002] With the maturity of radar detection and anti-missile and anti-ship systems in various countries, the research and development of stealth technology has an increasing impact on the survivability of various weapon systems. An important indicator of stealth technology is the radar cross section (Radar CrossSection, RCS) [1] , the radar cross section refers to the measurement of the return scattering power in a certain direction when the target object is irradiated by electromagnetic waves, and it is an important indicator to characterize the scattering characteristics of the object. The radar cross section is related to the structural parameters of the target itself, and also related to the basic electromagnetic characteristi...

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