Emerging Superconducting Technologies for Quantum Sensing and Computing

Superconducting quantum devices are poised to play a central role in the near future of both sensing and computing. Their unique properties—such as low dissipation, high coherence, and compatibility with scalable fabrication—make them ideal platforms for quantum technologies.
From quantum computers capable of solving classically intractable problems to ultra-sensitive sensors for detecting minute magnetic fields or single photons, superconducting circuits are at the heart of the quantum revolution.
The school Emerging Superconducting Technologies for Quantum Sensing and Computing offers an in-depth exploration of these rapidly advancing technologies. Participants will engage with leading experts to learn about superconducting qubits, parametric amplifiers, and quantum circuits more broadly, approaching the topics from both theoretical and experimental perspectives.
Key goals of the school are to highlight the synergy between quantum sensing and computing—two fields that share common tools and physical principles—and to showcase their applications across a wide range of domains, from particle physics to nuclear physics, as well as condensed matter physics, quantum chemistry, and materials science. By fostering dialogue across disciplines, the event enables students to gain a broad and coherent understanding of the landscape, preparing them to contribute to future breakthroughs in quantum science and engineering.