Broadband 3D-printed polarizer based on metallic transverse electro-magnetic unit-cells

Molero Jiménez, Carlos; Legay, Hervé; Pièrre, Thierry; García-Vigueras, María

doi:10.1109/TAP.2022.3145435

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Identificadores

URI: https://hdl.handle.net/10481/100688

DOI: 10.1109/TAP.2022.3145435

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Editorial

Institute of Electrical and Electronics Engineers (IEEE)

Materia

3D periodic structure

Additive Manufacturing

Equivalent circuits

Polarizers

Selective Laser Melting

Date

2022-06-06

Referencia bibliográfica

C. Molero, H. Legay, T. Pierré and M. García-Vigueras, "Broadband 3D-Printed Polarizer Based on Metallic Transverse Electro-Magnetic Unit-Cells," in IEEE Transactions on Antennas and Propagation, vol. 70, no. 6, pp. 4632-4644, June 2022

Sponsorship

10.13039/501100007034-Region de Bretagne, Thales Alenia Space, Thales Group through their KTD-Hardware 10.13039/501100008530-European Union through the European Regional Development Fund Ministry of Higher Education and Research, Brittany and Rennes Metropole, through the CPER Project under Grant SOPHIE/STIC and Ondes

Abstract

This article presents a 3-D polarizing screen that converts linear to circular polarization in a broadband frequency range. The conceived unit cells are fully metallic and based on structures that support transverse electromagnetic modes. Such cells have been specially conceived to be manufactured through metal 3-D printing based on selective laser melting. This is the first time that a polarizing structure presents such a broadband behavior without the use of dielectric materials. In addition, this is the first successful proof of concept of additive manufacturing in the context of metallic periodic surfaces, which is enabled by the use of a codesign approach. The present proposal is validated through the design and manufacturing of a prototype operating in K- and Ka-bands. Successful experimental results are reported.

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