Dr Florian Kaiser, Head of the Quantum Materials group at the Luxembourg Institute of Science and Technology (LIST), has been awarded a prestigious ERC Consolidator Grant worth €3 million over a five-year period. This grant will fund the research project, “Q-Chip”, which aims to demonstrate that quantum processors and quantum memories can be operated simultaneously on a single chip, thus overcoming existing scalability challenges in quantum technologies.
Focus on a scalable semiconductor integration of quantum technology
“A major question in modern quantum technology is whether we can combine individual demonstration experiments to create practical, real-world applications,” explains Dr Kaiser. “Theoretical studies suggest that linking quantum memories and processors – such as on a single chip – could allow even small systems to deliver significant quantum advantages. This will be immediately relevant for setting up a quantum internet, and, at a later stage, quantum computers.”
The ultimate goal of the project is to develop a prototype that mimics Apple's latest M-line chips, incorporating both processor and memory modules on the same chip. This integration will enable superior performance and minimal energy consumption, aligning with the future of quantum technology: scalable, efficient, and practical systems.
Dr Kaiser emphasized that the immediate aim of the project is to create a proof of concept for scalable quantum integration. “We will prioritize hardware development in the first phase of the project,” he said. “Quantum-specific benchmarking experiments will only commence in the final stage.” The initial prototype will consist of a single quantum processor and a single quantum memory, which can be connected via entanglement in a photonic network. At the end of the project, the team aims to present a fully characterized prototype and provide a roadmap for subsequent developments.
Leveraging existing research in silicon carbide
The project will build on groundbreaking research , also led by Dr Kaiser and his team, that explores silicon carbide's potential to significantly improve scalability in quantum computing.
On completion, this project will drive a major shift towards reliable, affordable, and widely accessible quantum technologies. Europe is uniquely positioned to lead this transformation, as it dominates the global silicon carbide industry with over 70% market share.
The project is anticipated to commence around April next year and span a total of five years.