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Quantum Error Correction Fault Tolerance
Floquet circuits inspired by holographic matrix models
arXiv
Authors: Yun Ma, Andrew Lucas
Year
2026
Paper ID
39072
Status
Preprint
Abstract Read
~2 min
Abstract Words
64
Citations
N/A
Abstract
We argue that near-term experiments with neutral atoms in movable optical tweezers can simulate circuits that mimic the Trotterized time-evolution of simple matrix models in quantum mechanics. As a cartoon of this proposal, we study Floquet Clifford circuits which exhibit a number of signatures of fast scrambling. One such illustration is a simplified Hayden-Preskill recovery protocol, in which stabilizer quantum error correction replaces postselection.
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- We argue that near-term experiments with neutral atoms in movable optical tweezers can simulate circuits that mimic the Trotterized time-evolution of simple matrix models in...
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