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Observation of thermalization and information scrambling in a superconducting quantum processor

Understanding various phenomena in non-equilibrium dynamics of closed quantum many-body systems, such as quantum thermalization, information scrambling, and nonergodic dynamics, is a crucial for modern physics. Using a ladder-type superconducting quantum processor, we perform analog quantum simulations of both the $XX$ ladder and one-dimensional (1D) $XX$ model. By measuring the dynamics of local observables, entanglement entropy and tripartite mutual information, we signal quantum thermalization and information scrambling in the $XX$ ladder. In contrast, we show that the $XX$ chain, as free fermions on a 1D lattice, fails to thermalize, and local information does not scramble in the integrable channel. Our experiments reveal ergodicity and scrambling in the controllable qubit ladder, and opens the door to further investigations on the thermodynamics and chaos in quantum many-body systems.

preprint2021arXivOpen access
Qingling ZhuZheng-Hang SunMing GongFusheng ChenYu-Ran ZhangYulin WuYangsen YeChen ZhaShaowei LiShaojun GuoHaoran QianHe-Liang HuangJiale YuHui DengHao RongJin LinYu XuLihua SunCheng GuoNa LiFutian LiangCheng-Zhi PengHeng FanXiaobo ZhuJian-Wei Pan
quant-ph
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Open access25 authors1 topic
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Qingling ZhuZheng-Hang SunMing GongFusheng ChenYu-Ran ZhangYulin WuYangsen YeChen ZhaShaowei LiShaojun GuoHaoran QianHe-Liang HuangJiale YuHui DengHao RongJin LinYu XuLihua SunCheng GuoNa LiFutian LiangCheng-Zhi PengHeng FanXiaobo ZhuJian-Wei Pan

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