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Paper detail

Interferometric Approach to Probing Fast Scrambling

Out-of-time-order correlation functions provide a proxy for diagnosing chaos in quantum systems. We propose and analyze an interferometric scheme for their measurement, using only local quantum control and no reverse time evolution. Our approach utilizes a combination of Ramsey interferometry and the recently demonstrated ability to directly measure Renyi entropies. To implement our scheme, we present a pair of cold-atom-based experimental blueprints; moreover, we demonstrate that within these systems, one can naturally realize the transverse-field Sherrington-Kirkpatrick (TFSK) model, which exhibits certain similarities with fast scrambling black holes. We perform a detailed numerical study of scrambling in the TFSK model, observing an interesting interplay between the fast scrambling bound and the onset of spin-glass order.

preprint2016arXivOpen access
Norman Y. YaoFabian GrusdtBrian SwingleMikhail D. LukinDan M. Stamper-KurnJoel E. MooreEugene A. Demler
cond-mat.stat-mechhep-thcond-mat.dis-nncond-mat.quant-gasquant-ph
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Norman Y. YaoFabian GrusdtBrian SwingleMikhail D. LukinDan M. Stamper-KurnJoel E. MooreEugene A. Demler

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