Dispersion analysis of periodic structures in anisotropic media: application to liquid crystals

Description

This paper presents an efficient method to compute the dispersion diagram of periodic and uniform structures with generic anisotropic media. The method takes advantage of the ability of full-wave commercial simulators to deal with finite structures having anisotropic media. In particular, the proposed method ¡extends the possibilities of commercial eigenmode solvers in the following ways:¡ (i) anisotropic materials with non-diagonal permittivity and permeability tensors can be analyzed; (ii) the attenuation constant can easily be computed in both propagating and stopband regions and lossy materials can be included in the simulation; and (iii) unbounded and radiating structures such as leaky-wave antennas can be treated. The latter feature may be considered the most remarkable, since the structures must be forcefully bounded with electric/magnetic walls in the eigensolvers of most commercial simulators. In this work, the proposed method is particularized for the study of liquid crystals (LCs) in microwave and antenna devices. Thus, the dispersion properties of a great variety of LC-based configurations are analyzed, from canonical structures, such as waveguide and microstrip, to complex reconfigurable phase shifters in ridge gap waveguide technology and leaky-wave antennas. Our results have been validated with previously reported works in the literature and with commercial software CST and HFSS.

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Junta de Andalucía TIC-112

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Ministerio de Ciencia, Innovación y Universidades TEC2017-84724-P

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Ministerio de Ciencia, Innovación y Universidades TIN2016-75097-P

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Ministerio de Ciencia, Innovación y Universidades RTI2018-102002-A-I00

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Junta de Andalucía B-TIC-402-UGR18

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Junta de Andalucía P18-RT-4830

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Ministerio de Ciencia, Innovación y Universidades PRX19/00025

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