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Modeling and Simulation of Metamaterial-based Devices for Industrial Applications
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The subject of metamaterials has grown rapidly over the past few years from a hot topic of academic research to a field with interesting and novel industrial applications. The exotic properties of these metamaterials include negative or low values of permittivity, permeability and refractive index, allowing engineers to manipulate the material’s intrinsic parameters to control the propagation of electromagnetic waves.
Some recent industrial applications have seen metamaterial transmission lines being used in broadband filters, multiband components, dual-band tags for UHF-RFID and sensors. The metamaterial-based waveguide structures, such as composite right/left-handed (CRLH) structures, have led to interesting applications of waveguide miniaturization and novel coupler design. Metamaterial-inspired antenna design has produced reflex-cavity antennas with low-profile, high gain, beam steering and frequency agility, and Metamaterial Surface Antenna Technology (MSA-T) can steer the microwave beam as fast as required to maintain a constant lock on satellites.
In this webinar we will look at how some of these applications of metamaterial based structures are modeled and simulated using the relevant solver technologies within CST STUDIO SUITE®.
Arnab Bhattacharya received his M.Sc. degrees in Electrical Engineering from Karlsruhe Institute of Technology, Germany and Universite catholique de Louvain, Belgium. He joined CST in 2012 as an Application Engineer where his main area of work involves high frequency applications and EMC/EMI simulation.
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