Innovating Works

FERDINANDBRAUNINSTITUT GGMBH LEIBNIZ INS...

Desconocido
PACRI: Plasma Accelerator systems for Compact Research Infrastructures FERDINANDBRAUNINSTITUT GGMBH LEIBNIZ INSTITUT FUR HOCHSTFREQUENZTECHNIK participó en un HORIZON EUROPE HORIZON-INFRA-2024-TECH-01 "Plasma accelerators driven by advanced laser sources and/or compact electron linacs are key components for the next generation of green and...
2024-10-08 - 2029-02-28 | Financiado
EuPRAXIA: EuPRAXIA Preparatory Phase Project FERDINANDBRAUNINSTITUT GGMBH LEIBNIZ INSTITUT FUR HOCHSTFREQUENZTECHNIK participó en un HORIZON EUROPE HORIZON-INFRA-2021-DEV-02 EuPRAXIA is a distributed, compact and innovative accelerator facility based on plasma technology. It has been selected for the 2021 Update...
2022-07-27 - 2026-10-31 | Financiado
VISSION: Active Building Blocks for Visible and Near-Infrared Applications on a Silicon Nitride Interposer FERDINANDBRAUNINSTITUT GGMBH LEIBNIZ INSTITUT FUR HOCHSTFREQUENZTECHNIK participó en un HORIZON EUROPE HORIZON-CL4-2021-DIGITAL-EMERGING-01 VISSION aims to extend the silicon nitride (SiN) photonic integrated circuit (PIC) platform for the visible and near-infrared wavelength ran...
2022-06-23 - 2026-08-31 | Financiado
YESvGaN: Vertical GaN on Silicon Wide Band Gap Power at Silicon Cost FERDINANDBRAUNINSTITUT GGMBH LEIBNIZ INSTITUT FUR HOCHSTFREQUENZTECHNIK participó en un H2020 H2020-ECSEL-2020-2-RIA-two-stage YESvGaN targets a new low-cost wide band gap (WBG) power transistor technology for enabling high-efficiency power electronic systems in the...
2021-05-12 - 2024-10-31 | Financiado
TERAWAY: Terahertz technology for ultra broadband and ultra wideband operation of backhaul and fronthaul link... FERDINANDBRAUNINSTITUT GGMBH LEIBNIZ INSTITUT FUR HOCHSTFREQUENZTECHNIK participó en un H2020 H2020-ICT-2018-20 TERAWAY will develop a disruptive generation of THz transceivers that can overcome the current limitations of THz technology and enable its...
2019-10-28 - 2023-08-31 | Financiado
ErBeStA: Error Proof Optical Bell State Analyzer FERDINANDBRAUNINSTITUT GGMBH LEIBNIZ INSTITUT FUR HOCHSTFREQUENZTECHNIK participó en un H2020 H2020-FETOPEN-2016-2017 We propose to solve the long-standing problem of building a complete Bell-state analyser that is free from measurement errors. The realisati...
2018-05-03 - 2022-06-30 | Financiado
ULTRAWAVE: Ultra capacity wireless layer beyond 100 GHz based on millimeter wave Traveling Wave Tubes FERDINANDBRAUNINSTITUT GGMBH LEIBNIZ INSTITUT FUR HOCHSTFREQUENZTECHNIK participó en un H2020 H2020-ICT-2016-2017 For the first time, smartphones and tablets data usage exceeds desktops. This is a wake up call for manufacturers and operators to provide u...
2017-06-02 - 2021-05-31 | Financiado
MIB: Multi modal Endoscopic Biophotonic Imaging of Bladder Cancer for Point of Care Diagnosis FERDINANDBRAUNINSTITUT GGMBH LEIBNIZ INSTITUT FUR HOCHSTFREQUENZTECHNIK participó en un H2020 H2020-PHC-2014-2015 Bladder cancer is among the most expensive diseases in oncology in terms of treatment costs; each procedure requires days of hospitalisation...
2015-12-09 - 2021-12-31 | Financiado
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