PHEMTRONICS | Active Optical Phase-Change Plasmonic Transdimensional Systems Enabling Femtojoule and Femtosecond Extreme Broadband Adaptive Reconfigurable Devices

Summary
PHEMTRONICS has the ambitious vision of translating forefront knowledge in phase-transformation dynamics of “light controllable active matter with reconfigurable and interactively tunable dynamical properties” into broadband reconfigurable and adaptive devices by developing a radically novel transdimensional materials platform that is intrinsically phase change, low-loss plasmonic and electronically topological. The photon-electron-phonon coupling will enable a new technology paradigm of adaptive optical signal processing with key metrics of the “femtosecond-scale switching time”, “ultralow power of femtojoule/bit” and “microwave-to-optical frequencies” broadband capability required for reliable multibit operations
To do so PHEMTRONICS will (i) develop a novel platform of eco-sustainable non-toxic phase-change transdimensional materials with a large pool of structural motifs, accessible close to room temperature; (ii) pioneer a programmable mixed-mode plasmon-opto-electrical machine, actuated with novel active phase-change low-loss plasmonic nanoantennas, exploiting mechanisms of dynamical amplification of phonons by plasmons to achieve mode-selective enhancement (iii) master beyond-equilibrium phase-transformations through predictive models to guide reconfigurability of devices
We will deliver innovative ultrafast light induced phase-change switches, dynamically reconfigurable nanoantennas and adaptive switchable multiple-band detectors surpassing the current paradigms of speed, energy and frequencies
PHEMTRONICS interdisciplinary team covering the whole value chain, from a novel class of plasmonic phase-change materials, to fabrication, design, modelling tools and integration to new device architectures, will herald a new era in the fields of mobile communications, optical computing, ultrafast athermal switching for neuromorphic computation, tuneable nanopixel displays, creating new markets and reinforcing the leadership of European research and industrial players
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/899598
Start date: 01-06-2020
End date: 31-12-2023
Total budget - Public funding: 3 099 375,00 Euro - 3 099 375,00 Euro
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Original description

PHEMTRONICS has the ambitious vision of translating forefront knowledge in phase-transformation dynamics of “light controllable active matter with reconfigurable and interactively tunable dynamical properties” into broadband reconfigurable and adaptive devices by developing a radically novel transdimensional materials platform that is intrinsically phase change, low-loss plasmonic and electronically topological. The photon-electron-phonon coupling will enable a new technology paradigm of adaptive optical signal processing with key metrics of the “femtosecond-scale switching time”, “ultralow power of femtojoule/bit” and “microwave-to-optical frequencies” broadband capability required for reliable multibit operations
To do so PHEMTRONICS will (i) develop a novel platform of eco-sustainable non-toxic phase-change transdimensional materials with a large pool of structural motifs, accessible close to room temperature; (ii) pioneer a programmable mixed-mode plasmon-opto-electrical machine, actuated with novel active phase-change low-loss plasmonic nanoantennas, exploiting mechanisms of dynamical amplification of phonons by plasmons to achieve mode-selective enhancement (iii) master beyond-equilibrium phase-transformations through predictive models to guide reconfigurability of devices
We will deliver innovative ultrafast light induced phase-change switches, dynamically reconfigurable nanoantennas and adaptive switchable multiple-band detectors surpassing the current paradigms of speed, energy and frequencies
PHEMTRONICS interdisciplinary team covering the whole value chain, from a novel class of plasmonic phase-change materials, to fabrication, design, modelling tools and integration to new device architectures, will herald a new era in the fields of mobile communications, optical computing, ultrafast athermal switching for neuromorphic computation, tuneable nanopixel displays, creating new markets and reinforcing the leadership of European research and industrial players

Status

SIGNED

Call topic

FETOPEN-01-2018-2019-2020

Update Date

27-04-2024
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Horizon 2020
H2020-EU.1. EXCELLENT SCIENCE
H2020-EU.1.2. EXCELLENT SCIENCE - Future and Emerging Technologies (FET)
H2020-EU.1.2.1. FET Open
H2020-FETOPEN-2018-2020
FETOPEN-01-2018-2019-2020 FET-Open Challenging Current Thinking