19.05.2026 – Quantum materials and quantum information science

Quantum materials and quantum information science

Quantum materials and quantum information science are rapidly growing frontiers of modern fundamental physics. In quantum materials, recent studies have uncovered a wide array of macroscopic quantum phases, including unconventional superconductivity, Wigner insulators, orbital magnetism and topological orders. These phases are manifestation of spontaneous quantum coherence and entanglement between many electrons in the solids. Meanwhile, quantum information science has witnessed remarkable breakthroughs in quantum computing and quantum sensing across various physical platforms. Despite their rapid progress, the two fields have largely developed independently, suggesting exciting opportunities for synergy. Can we use qubits as novel probes to measure long-range many-body quantum entanglement in solids? Can we harness the collective quantum coherence and entanglement of correlated phases to design new types of qubits or quantum sensors? By bringing together leading experts from both communities, this workshop aims to explore the interface between quantum materials and quantum information science, fostering transformative ideas to address some of the most pressing open questions in both fields.

For videos of the talks and further information, please visit the workshop home page.

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