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One-way absorption and isolation in space-time-periodic superconducting metasurfaces

One-way absorption and isolation in space-time-periodic superconducting metasurfaces
One-way absorption and isolation in space-time-periodic superconducting metasurfaces

Superconductors offer zero electrical resistance below a critical temperature, enabling advancements in various fields, from quantum computing and MRI to energy systems. This paper introduces a groundbreaking approach utilizing space-time-modulated superconductors for one-way absorption and isolation, marking a significant leap in metasurface technology. We explore the unique characteristics, analytical methods, and properties of these superconducting metasurfaces, demonstrating their capabilities in manipulating electromagnetic waves. Our findings highlight the potential of spatiotemporal superconducting surfaces in enhancing quantum computing, communication systems, and beyond. This research not only paves the way for novel applications of superconductors but also opens up new avenues in the design and development of advanced metasurfaces for wavecrafting.

IEEE
Taravati, Sajjad
0026f25d-c919-4273-b956-8fe9795b31ce
Taravati, Sajjad
0026f25d-c919-4273-b956-8fe9795b31ce

Taravati, Sajjad (2024) One-way absorption and isolation in space-time-periodic superconducting metasurfaces. In 2024 18th International Congress on Artificial Materials for Novel Wave Phenomena (Metamaterials). IEEE. 3 pp . (doi:10.1109/Metamaterials62190.2024.10703277).

Record type: Conference or Workshop Item (Paper)

Abstract

Superconductors offer zero electrical resistance below a critical temperature, enabling advancements in various fields, from quantum computing and MRI to energy systems. This paper introduces a groundbreaking approach utilizing space-time-modulated superconductors for one-way absorption and isolation, marking a significant leap in metasurface technology. We explore the unique characteristics, analytical methods, and properties of these superconducting metasurfaces, demonstrating their capabilities in manipulating electromagnetic waves. Our findings highlight the potential of spatiotemporal superconducting surfaces in enhancing quantum computing, communication systems, and beyond. This research not only paves the way for novel applications of superconductors but also opens up new avenues in the design and development of advanced metasurfaces for wavecrafting.

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More information

Published date: 8 October 2024
Venue - Dates: 18th International Congress on Artificial Materials for Novel Wave Phenomena, Metamaterials 2024, , Chania, Greece, 2024-09-09 - 2024-09-14

Identifiers

Local EPrints ID: 497387
URI: http://eprints.soton.ac.uk/id/eprint/497387
DOI: doi:10.1109/Metamaterials62190.2024.10703277
PURE UUID: 2d80ee1e-9f16-4333-a6ef-e259b2c077c5
ORCID for Sajjad Taravati: ORCID iD orcid.org/0000-0003-3992-0050

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Date deposited: 21 Jan 2025 18:02
Last modified: 22 Jan 2025 03:13

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Author: Sajjad Taravati ORCID iD

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