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Active HORIZON European Commission

Towards On-Chip Plasmonic Amplifiers of THz Radiation

€2.5M EUR

Funder European Commission
Recipient Organization Instytut Wysokich Cisnien Polskiej Akademii Nauk
Country Poland
Start Date Aug 01, 2023
End Date Jul 31, 2028
Duration 1,826 days
Number of Grantees 1
Roles Coordinator
Data Source European Commission
Grant ID 101053716
Grant Description

Thirty years ago Dyakonov and Shur opened a new field in solid-state physics and electronics - plasma-wave electronics.

They theoretically predicted that: i) in nano-transistors, plasma waves may oscillate at THz frequencies far beyond the devices cut-off GHz frequencies, ii) THz radiation can be detected by plasma nonlinearities, and iii) the current flow can lead to the generation of THz radiation. The detection part of the plasmonics promise was proven and nowadays THz plasmonic detector arrays are widely used.

In the case of emitters, the task turned out to be considerably more complicated.

Only recently (PRX 10, 031004, 2020; with my teams participation) room temperature, current-driven amplification of incoming THz radiation has been demonstrated in an innovative double grating gate structures based on graphene, one of the most promising materials for plasmonics.

These break-through results indicate that existing models of plasmonic systems should be reconsidered and that using new 2D materials or their heterojunctions with innovative geometries, may lead Towards on-chip plasmonics amplifiers of THz radiation, which is TERAPLASMs main objective.

The experimental methodology will involve fabrication and THz spectroscopy studies of graphene and alternative-to-graphene unique HgTe and GaN-based systems with a high mobility 2D electron gas.

This will allow finding the physical mechanisms responsible for the observed THz plasmonic amplification and select the optimum systems for THz devices.

In parallel, theoretical research will develop physical models of THz plasmonic amplification studied in the experimental part of the project.

By conducting extensive technological, spectroscopic, and theoretical research TERAPLASM will aim to answer the old basic physics and electronics questions on the feasibility of on-chip plasmonics amplifiers of THz radiation, with important potential applications in wireless telecommunication, biosensing, security, and others.

All Grantees

Instytut Wysokich Cisnien Polskiej Akademii Nauk

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