The European Commission has formally approved Gen-Q, an ambitious international doctoral program in quantum science and technology.
Leading the European campus, Eucole, this groundbreaking initiative is set to shape the future of quantum research by fostering international, interdisciplinary and interdisciplinary collaboration.
Over the next five years, 51 doctoral candidates will have the opportunity to contribute to cutting-edge development of quantum computing, quantum sensing and related technologies.
Cross-border collaboration
Gen-Q integrates academic institutions from multiple countries, reflecting the inherently global nature of quantum science.
The programme gathers with five Eucor universities, the University of Technology Karlsruhe (Kit) in Germany, the University of Basel in Switzerland, the University of Freiburg, Autoaracen, and the University of Strasbourg in France, as well as the University of Amsterdam and the University of Postan in the Netherlands.
This cross-border collaboration ensures that doctoral candidates will benefit from diverse perspectives and cutting-edge research facilities.
“We are pleased to announce that we are a vice president of International Affairs and KIT’s relocation and user vice president of users,” said Professor Thomas Haas. Achieving rapid progress requires cross-border collaboration and creative mindset.
“Gen-Q is designed to purposefully promote young researchers. This program will help recruit and promote talent early on.”
Training the next generation of quantum scientists
As quantum science continues to revolutionize information and communication technology, the need for highly skilled researchers has never been greater.
Gen-Q is designed to develop talent by providing young scientists with practical experience in various aspects of quantum technology.
The total budget ranges from 12 million to over 6 million euros, of which are funded by the European Union through Horizon Europe’s Marie Skłodowska-Curie Cofund program. Gen-Q aims to attract top-tier researchers from around the world to the Upper Rhine region and beyond.
Key research areas: Pushing the boundaries of quantum science
The Gen-Q initiative focuses on four major areas of research:
Overcoming the noise of quantum devices: By addressing one of the most pressing challenges in quantum computing, researchers will tackle strategies to mitigate errors and decoherence in quantum systems. Enlarging Qubit’s complexity: Investigating ways to improve performance and stability of qubits, the fundamental unit of quantum computing, paving the way for more robust quantum technology. Quantum Hardware Development: A pioneer in new materials and architectures to support next-generation quantum processors and sensors. Quantum software and hybrid computing: Creating advanced algorithms and hybrid systems that integrate classic and quantum computing in real-world applications.
Each doctoral candidate will work closely with industry partners to conduct research at one of the participating institutions.
This dual approach ensures that theoretical advancements lead to practical innovation and strengthen Europe’s position as a leader in quantum science and technology.
Enhancement of European quantum ecosystems
Gen-Q is based on the success of previous programs such as Qustec (Quantum Science and Technology on the European Campus), and fits Eucol’s strategic focus on quantum research.
By strengthening collaboration between European universities and industry partners, the programme will help establish a robust quantum ecosystem that can address future scientific and technical challenges.
Through Gen-Q, Europe is investing not only in research but also in the skilled labor required to maintain advances in quantum technology.
Quantum leap for European research
The launch of Gen-Q is a key milestone in Europe’s quest to lead the quantum revolution.
By bringing together top universities, cutting-edge research facilities and industry leaders, the program ensures that the brightest minds of quantum science receive the training and resources they need to make a transformative breakthrough.
As quantum technology continues to evolve, initiatives like Gen-Q will play a key role in shaping the future of computing, communication and more.
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