On the Quantum to Classical Transition in Noisy Quantum Systems

Explore the quantum-to-classical transition in noisy quantum systems through this 47-minute conference talk by Dorit Aharonov from Hebrew University. Examine how noise affects quantum systems and necessitates quantum error correction and fault-tolerance for scalable quantum computation. Discover recent theoretical advances in constructing novel families of quantum codes in non-local geometries that challenge conventional understanding of phases of matter. Learn about optimization techniques for quantum error correction in structured noise models that can reduce overhead for practical implementations. Understand the scientific opportunities and challenges these developments present in quantum many-body physics when describing properties and evolution of encoded quantum matter. Gain insights into how quantum error correction and fault-tolerance frameworks apply to quantum many-body systems, with particular emphasis on results relevant to near-term quantum device experiments.