Project description
Europe’s position in optical quantum computing
Unlocking the potential of quantum computing is not easy. The current bulky apparatus used in photonics quantum computing lacks scalability. Recent quantum advantage demonstrations by Canadian and Chinese groups, achieved with squeezed light, showcased the technology's prowess, but revealed its impracticality for large-scale applications. Europe is emerging as a leader in integrated optical quantum computing platforms, making breakthroughs in photonic chips, detectors, and deterministic photon sources. Addressing the need for scalability, the EU-funded EPIQUE project brings together global experts in photonics and quantum algorithms, uniting their efforts to propel quantum computing into a new era of practicality and efficiency. It is setting the stage for scalable, general-purpose quantum computing with over 1 000 qubits.
Objective
Photonics is one of the first platforms explored for quantum computing (QC), bringing the advantage of low decoherence and natural connectivity for distributed and blind QC. Recent years have witnessed a step-change in the scale, complexity, and scope of QC with photons which recently led to 3 out of the 4 demonstrations of quantum advantage from Canadian and Chinese groups. These impressive achievements were obtained with squeezed light in bulky apparatus that are not fit for scalability. Europe shows strong leadership in development of integrated optical QC platforms, with breakthroughs in the development of high transmission dense photonic chips, record efficiency detectors and deterministic single photon sources. Photonic QC also benefits from a clear roadmap toward fault tolerant architectures proposed by leading EU quantum algorithm teams. EPIQUE gathers world leaders in photonics QC with expertise in both technology and algorithms from academia and SMEs who work together to deliver the technological breakthroughs required to push the platform toward general purpose QC. This will be achieved via new nanofabrication that combines novel switching with mature silicon compatible circuitry, via optimising both single photon sources and detectors, via new interfacing possibilities in silicon nitride and direct write modular chips, via fast low loss switching in lithium niobate, and via quantum architectures that leverage all of these advances. EPIQUE will develop three QC prototypes that will demonstrate essential building blocks of generating and fusing quantum states to entangle >10 qubits, and critical measurement and feedforward capabilities required to scale the platform to >1000 qubits. At the end of this project, we will have proven a route to general purpose quantum computing that will strengthen private investment in EU based optical QC companies.
Fields of science
- natural scienceschemical sciencesinorganic chemistryalkali metals
- engineering and technologyelectrical engineering, electronic engineering, information engineeringelectronic engineeringcomputer hardwarequantum computers
- natural scienceschemical sciencesinorganic chemistrymetalloids
- natural sciencesphysical sciencestheoretical physicsparticle physicsphotons
Keywords
Programme(s)
Funding Scheme
HORIZON-RIA - HORIZON Research and Innovation ActionsCoordinator
00185 Roma
Italy
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Participants (17)
1010 Wien
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75794 Paris
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2800 Kongens Lyngby
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00185 Roma
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4715-330 Braga
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33098 Paderborn
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01 045 Warszawa
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2628 ER Delft
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The organization defined itself as SME (small and medium-sized enterprise) at the time the Grant Agreement was signed.
91300 Massy
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The organization defined itself as SME (small and medium-sized enterprise) at the time the Grant Agreement was signed.
75015 PARIS 15
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160 00 Praha
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69117 Heidelberg
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81541 Munchen
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The organization defined itself as SME (small and medium-sized enterprise) at the time the Grant Agreement was signed.
50121 Florence
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T12 YN60 Cork
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3001 Leuven
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3460 Birkerod
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