Fault-Tolerant, Universal Quantum Processing with Neutral Atoms
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Explore experimental advances in fault-tolerant quantum computing through this 51-minute conference talk examining universal quantum processing with neutral atom arrays. Discover how quantum error correction provides a pathway to overcome decoherence limitations in quantum computers by encoding logical qubits into redundant physical qubits. Learn about key experimental demonstrations including below-threshold logical performance, efficient logical entanglement through transversal gates and lattice surgery, and universal operations enabled by transversal teleportation between two- and three-dimensional quantum codes. Examine the underlying mechanisms of reconfigurable neutral atom systems and their potential for scalable quantum processing. Understand theoretical developments in time-efficient computation using transversal gates and magic-state inputs that dramatically reduce fault tolerance overhead by more than an order of magnitude while maintaining accurate and fast decoding capabilities. Gain insights into the foundational elements necessary for practical, universal quantum processing in neutral-atom quantum computing systems and their implications for the future of quantum information processing.
Syllabus
Madelyn Cain - Fault-tolerant, universal quantum processing with neutral atoms - IPAM at UCLA
Taught by
Institute for Pure & Applied Mathematics (IPAM)