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Explore autonomous stabilization techniques for Floquet states in this 38-minute conference talk by Alicia Kollar from the Joint Quantum Institute. Learn about the theoretical and experimental approaches to maintaining quantum states that are periodically driven in time, focusing on how these systems can be stabilized without continuous external intervention. Discover the connections between Floquet engineering and quantum error correction, examining how periodic driving can create robust quantum phases of matter. Understand the challenges and opportunities presented by noise in these systems and how autonomous stabilization protocols can be implemented in programmable quantum computing platforms. Gain insights into the intersection of quantum many-body physics and fault-tolerant quantum computation, with particular emphasis on applications relevant to near-term quantum devices and experiments.
