Nonlinear Cylindrical Markers Using Metamaterials

In this paper, the research of nonlinear cylindrical metastructure was obtained. An algorithm for finding the total field of a nonlinearly loaded perfectly conducting cylinder covered with a metamaterial (MM) layer based on Maxwell's equations with nonlinear boundary conditions on the surface of nonlinear loads (NL) was developed. A software package implementing this algorithm was created. Based on the results of numerical calculations of the program, the scattering diagrams of a metal cylinder with NL, covered with a layer of MM at the fundamental, second, and third harmonics were obtained. The dependences of the harmonics of the scattered field on the parameters of nonlinear loads were also studied. With the help of numerical simulation using Ansys HFSS, the extract procedure of the effective parameters of cylindrical MM was realized. Based on the results of calculation and numerical simulation, a model of a nonlinear cylindrical structure of two radii was made and an experimental study was carried out. As a result of the experiment, the frequency characteristics of the metastructure were obtained at various angles of incidence of the wave. The results of numerical simulation were confirmed by the results of the experiment. It is shown that the use of the provided nonlinear cylindrical marker with metamaterial makes it possible to obtain the levels of the first and second harmonics in a scattered field of the same order. This structure can be used as a nonlinear marker in both military and civilian areas.

Automated summary

A research on nonlinear cylindrical metastructure was conducted, which developed an algorithm for finding the total field of a nonlinearly loaded perfectly conducting cylinder covered with a metamaterial layer based on Maxwell's equations with nonlinear boundary conditions. The algorithm was implemented in a software package, and numerical calculations and simulations were carried out to study the scattering diagrams and dependencies of the scattered field harmonics on the parameters of nonlinear loads. The experimental study confirmed the results of numerical simulations, showing the potential of the nonlinear cylindrical marker with metamaterial for applications in both military and civilian areas.