The Quantum Flagship is currently focused on mainstream quantum technologies, in qubit implementation, sensors and other areas. Nevertheless, alternative implementations/platforms and so far, unexploited (controllable) quantum principles exist and could become key elements in future quantum systems. Such new implementations and principles could lead to breakthrough innovations and enable new players to offer unique solutions […]
This is an automatic translation from French, to see the information in the original language please follow this link. The Quantum Technologies Priority Research Program and Equipment (PEPR) is specifically intended to support the research effort of the scientific community and constitutes the upstream part of the national quantum strategy (TRL 1 to 4). France’s […]
Photonic Integrated Circuits (PIC) technologies on one side and quantum science on the other are the building blocks for development of Quantum PIC (QPIC) devices for quantum information processing, computation/simulation, communication, sensing or metrology. Photon-based approaches can address the huge challenge of implementing quantum processes in public infrastructures, challenging industry applications and compact everyday-life devices […]
Expected Outcome: Framework Partnership Agreements (FPAs) in quantum computing are expected to establish a stable and structured partnership between the Commission and the institutions and organisations in quantum computing who commit themselves to establishing, maintaining and implementing a strategic research roadmap aligned with and contributing to the Quantum Flagship Strategic Research Agenda in a scalable […]
Within the national quantum strategy, started in 2021, the ANR launches a call for research proposals in quantum sensors and quantum metrology. The roadmap of the national quantum strategy includes a response to needs in the metrology domain, that correspond to developments in quantum technologies. This call for proposals aims at funding high quality research […]
Expected Outcome: Projects are expected to contribute to at least three of the following expected outcomes: Measuring, assessing and standardizing/certifying future-proof cryptography Addressing gaps between the theoretical possibilities offered by quantum resistant cryptography and its practical implementations Quantum resistant cryptographic primitives and protocols encompassed in security solutions Solutions and methods that could be used to […]
Förderziel und Zuwendungszweck Mit dieser Fördermaßnahme „KMU-innovativ: Photonik und Quantentechnologien“ verfolgt das Bundesministerium für Bildung und Forschung (BMBF) das Ziel, das Innovationspotenzial kleiner und mittlerer Unternehmen (KMU) im Bereich der Spitzenforschung zu stärken sowie die Forschungsförderung im Rahmen des Förderprogramms „Photonik Forschung Deutschland“ insbesondere für erstantragstellende KMU attraktiver zu gestalten. Dazu hat das BMBF die […]
Expected Outcome: Projects are expected to contribute to demonstrate the feasibility of next generation quantum sensing and metrology technologies and devices by showing disruptive progress in the performance, reliability and efficiency and application of such technologies and devices and by enhancing the TRL of all (essential) components necessary to build them. Scope: Proposals should focus […]
Expected Outcome: • Support the EU space policy and the green deal by paving the way for the deployment of a future EU Earth observation mission making use of quantum gravimetry • Ensure EU non-dependence for the development of capacities leading to the availability of quantum space gravimetry • Enhance the TRL of all (critical) […]
Organisations can apply for a share of £25m inclusive of VAT, to develop quantum-enabled systems for positioning, navigation, timing (PNT) and quantum-enabled sensing applications relating to navigation. This is a Small Business Research Initiative (SBRI) competition funded by Innovate UK. The aim of the competition is to deliver quantum-enabled systems for positioning, navigation and timing, and quantum-enabled […]
Laserbasierte Verfahren besitzen das Potenzial, den technischen Aufwand für die Erzeugung hochenergetischer (Teilchen-)Strahlung massiv zu reduzieren und damit die Kosteneffizienz deutlich zu erhöhen, um den Weg zu einer breiten Nutzung, beispielsweise in der Batterietechnik oder der medizinischen Wirkstoffentwicklung, zu ebnen. Durch ihre Kohärenz und hohe Brillanz können sie für einzigartige Anwendungen eingesetzt werden. Nachfolgend ein Auszug aus […]
Förderziel und Zuwendungszweck Ziel der Förderung ist die Erforschung und Entwicklung von Quantenrepeatern und deren Komponenten für den Einsatz unter realen Bedingungen. Mit der Bekanntmachung wird außerdem beabsichtigt, langfristig die Voraussetzungen für die Entwicklung marktreifer Quantenrepeatersysteme durch die deutsche Industrie zu schaffen und diese so in die Lage zu versetzen, die entstehenden Märkte frühzeitig zu […]
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