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HAMLET

Heterogeneous Advancement and hybrid integration of polymer and tripLEx platform for Integrated Microwave PhoTonics

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EC-Contrib. €

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Project "HAMLET" data sheet

The following table provides information about the project.

Coordinator
INSTITUTE OF COMMUNICATION AND COMPUTER SYSTEMS 

Organization address
address: Patission Str. 42
city: ATHINA
postcode: 10682
website: www.iccs.gr

contact info
title: n.a.
name: n.a.
surname: n.a.
function: n.a.
email: n.a.
telephone: n.a.
fax: n.a.

 Coordinator Country Greece [EL]
 Project website http://ict-hamlet.eu/
 Total cost 3˙487˙401 €
 EC max contribution 3˙487˙401 € (100%)
 Programme 1. H2020-EU.2.1.1. (INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Information and Communication Technologies (ICT))
 Code Call H2020-ICT-2015
 Funding Scheme RIA
 Starting year 2015
 Duration (year-month-day) from 2015-12-01   to  2019-05-31

 Partnership

Take a look of project's partnership.

# participants  country  role  EC contrib. [€] 
1    INSTITUTE OF COMMUNICATION AND COMPUTER SYSTEMS EL (ATHINA) coordinator 520˙000.00
2    SOLMATES BV NL (ENSCHEDE) participant 877˙500.00
3    FRAUNHOFER GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG E.V. DE (MUNCHEN) participant 826˙983.00
4    LIONIX INTERNATIONAL BV NL (ENSCHEDE) participant 765˙031.00
5    CORDON ELECTRONICS ITALIA SRL IT (CORNATE D'ADDA) participant 497˙886.00
6    Linkra S.R.L. IT (Cornate d'Adda) participant 0.00
7    LIONIX BV NL (ENSCHEDE) participant 0.00
8    SATRAX BV NL (ENSCHEDE) participant 0.00

Map

 Project objective

Microwave photonics technology (MWP) has the potential to create a huge commercial impact by bringing together the worlds of microwave engineering and photonics and by enabling processing functionalities in microwave systems that are complex or totally impossible in the microwave domain. The main reason for not having achieved this so far has been the lack of a photonic integration technology that could address the specific needs of MWP. HAMLET aims to fill this gap and develop a disruptive photonic integration platform that will enable the development of very large scale photonic integrated circuits (VLSPICs) with cascaded stages of tunable structures for analog and digital signal processing, variety of optical processing functionalities and ultra-low optical loss. To this end, HAMLET will employ two integration levels. At the first one, it will develop a disruptive PZT-based phase-shifter technology on TriPleX platform with lower power consumption compared to thermal phase-shifters by almost one million times. At the same level HAMLET will incorporate the deposition of graphene films as a standard step in the fabrication process of polymer platform and will develop arrays of electro-absorption modulators with high bandwidth (>25 GHz). At the second integration level, HAMLET will bring together the two platforms under a 3D hybrid integration engine, and will develop circuits with record scale of integrated components (>300), record scale of functionalities with optical beamforming for 64-element antenna arrays at first place, and novel use as the interface between the wireless and the optical part at the antenna units of emerging 5G networks. Finally, in parallel with the system-related exploitation, HAMLET will also work on the unification of the two platforms under a multi-project wafer run type of services to external users, where the 3D integration engine will be used for provision of supersets of components and tools already available in the two platforms.

 Publications

year authors and title journal last update
List of publications.
2019 Christos Tsokos, Elias Mylonas, Panos Groumas, Lefteris Gounaridis, Hercules Avramopoulos, Christos Kouloumentas
Optical Beamforming Network for Multi-Beam Operation With Continuous Angle Selection
published pages: 177-180, ISSN: 1041-1135, DOI: 10.1109/lpt.2018.2889411
IEEE Photonics Technology Letters 31/2 2020-01-28
2018 Christos Tsokos, Elias Mylonas, Panos Groumas, Vasilis Katopodis, Lefteris Gounaridis, Roelof Bernardus Timens, Ruud M. Oldenbeuving, Chris G. H. Roeloffzen, Hercules Avramopoulos, Christos Kouloumentas
Analysis of a Multibeam Optical Beamforming Network Based on Blass Matrix Architecture
published pages: 3354-3372, ISSN: 0733-8724, DOI: 10.1109/jlt.2018.2841861
Journal of Lightwave Technology 36/16 2020-01-28
2017 Jörn P. Epping, Denys Marchenko, Arne Leinse, Richard Mateman, Marcel Hoekman, Lennart Wevers, Edwin J. Klein, Chris G. H. Roeloffzen, Matthijn Dekkers, René G. Heideman
Ultra-low-power stress-optics modulator for microwave photonics
published pages: 101060F, ISSN: , DOI: 10.1117/12.2266170
Integrated Optics: Devices, Materials, and Technologies XXI February 16, 2017 2020-01-28
2017 J.P. Eppinga, D. Marchenko, A. Leinse, R. Mateman, M. Hoekman, L. Wevers, E.J. Klein, C.G.H. Roeloffzen, M. Dekkers, R.G. Heideman
Ultra-low-power stress-based phase actuator for microwave photonics
published pages: , ISSN: , DOI:
2020-01-28

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