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Bibliographic Details
Main Authors: Oliveri, Giacomo, Zardi, Francesco, Sancez, Aaron Angel Salas, Massa, Andrea
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.14601
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author Oliveri, Giacomo
Zardi, Francesco
Sancez, Aaron Angel Salas
Massa, Andrea
author_facet Oliveri, Giacomo
Zardi, Francesco
Sancez, Aaron Angel Salas
Massa, Andrea
contents The implementation of simple, inexpensive, and mass-production-oriented solutions for smart electromagnetic environments (SEMEs) is dealt with by introducing the concept of "one-time programmable" electromagnetic skins (OTP-EMSs). The simultaneous achievement of modular fabrication, (one-time) configurable reflection properties, passive-static operation, and zero maintenance is yielded by integrating expendable components at the atomic level of EMSs. Towards this end, an OTP meta-atom structure is properly defined and optimized to build EMSs featuring the desired scenario-dependent EM wave manipulation functionalities. In order to illustrate the features as well as to point out the potentialities of OTP-EMSs, a representative set of analytical, numerical, and experimental results is reported by considering different apertures, illuminations, and EM wave manipulation requirements.
format Preprint
id arxiv_https___arxiv_org_abs_2507_14601
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle One-Time Programmable Passive Electromagnetic Skins
Oliveri, Giacomo
Zardi, Francesco
Sancez, Aaron Angel Salas
Massa, Andrea
Systems and Control
The implementation of simple, inexpensive, and mass-production-oriented solutions for smart electromagnetic environments (SEMEs) is dealt with by introducing the concept of "one-time programmable" electromagnetic skins (OTP-EMSs). The simultaneous achievement of modular fabrication, (one-time) configurable reflection properties, passive-static operation, and zero maintenance is yielded by integrating expendable components at the atomic level of EMSs. Towards this end, an OTP meta-atom structure is properly defined and optimized to build EMSs featuring the desired scenario-dependent EM wave manipulation functionalities. In order to illustrate the features as well as to point out the potentialities of OTP-EMSs, a representative set of analytical, numerical, and experimental results is reported by considering different apertures, illuminations, and EM wave manipulation requirements.
title One-Time Programmable Passive Electromagnetic Skins
topic Systems and Control
url https://arxiv.org/abs/2507.14601