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PLASNANO

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Nano scale Development of Plasmonic Amplifiers Based on 2D Materials

The library of 2D materials is growing at a rapid rate driven by the potential extraordinary electronic applications that they can offer. In parallel, terahertz (THz) technologies has continued to draw a great interest due to the... see more

31/03/2026

unknown leader

3M€

Project Budget: 3M€

Project leader unknown leader

PARTICIPATION DEPralty Sin fecha límite de participación.

Financing granted El organismo HORIZON EUROPE notifico la concesión del proyecto The day 2023-03-08

HORIZON-EIC-2022-PATHFINDEROPEN-01-01: EIC Pathfinder Open 2022 Scope:You should apply to this call if you are looking for support from EIC Pathfinder Open to reali...

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Project duration: 36 months Date Start: 2023-03-08
End date: 2026-03-31

Project leader unknown leader

Project Budget 3M€

participation deadline Sin fecha límite de participación.

Project description The library of 2D materials is growing at a rapid rate driven by the potential extraordinary electronic applications that they can offer. In parallel, terahertz (THz) technologies has continued to draw a great interest due to the many applications that it can have a profound impact in but has continuously been hindered due to the low power and wide scale applicability of current THz source technologies. THz surface plasmonics is coming in to the forefront as an area which can bridge these two emerging technologies and allow the necessary breakthrough that is needed in the so called THz source gap region of 0.5 – 3 THz. In this project the goal is to develop architectures which can efficiently amplify THz waves based on surface plasmons in 2D materials. The fundamental attributes that underline this approach resides in the interaction between THz radiation and electrically driven surface plasmons which provides amplification through an exchange of energy and momentum limited only by the properties of the gain medium. Thus the limits of the amplification are governed by limits to the electrical excitation of surface plasmons and how well these surface plasmons couple to the THz radiation. By utilizing novel 2D materials with extraordinary electrical properties based on Transition Metal Dichalcogenides (TMDs) and Transition Metal Monochalcogenides (TMMs) as well as traditional carbon based materials such as graphene we plan to stretch these limits and achieve ground breaking results in terms of amplification and gain by incorporating the developed amplifiers into existing state-of-the-art Silicon – Germanium hetero junction bipolar (HBT) based THz arrays. In the consortium led by THALES, leading experts from advanced research institutes, SMEs and universities which specialize in growth and modelling of 2D Materials as well as THz source development and characterization have come together to achieve such a ground-breaking vision.

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