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Probing dynamical phase transitions with a superconducting quantum simulator.


ABSTRACT: Nonequilibrium quantum many-body systems, which are difficult to study via classical computation, have attracted wide interest. Quantum simulation can provide insights into these problems. Here, using a programmable quantum simulator with 16 all-to-all connected superconducting qubits, we investigate the dynamical phase transition in the Lipkin-Meshkov-Glick model with a quenched transverse field. Clear signatures of dynamical phase transitions, merging different concepts of dynamical criticality, are observed by measuring the nonequilibrium order parameter, nonlocal correlations, and the Loschmidt echo. Moreover, near the dynamical critical point, we obtain a spin squeezing of -7.0 ± 0.8 dB, showing multipartite entanglement, useful for measurements with precision fivefold beyond the standard quantum limit. On the basis of the capability of entangling qubits simultaneously and the accurate single-shot readout of multiqubit states, this superconducting quantum simulator can be used to study other problems in nonequilibrium quantum many-body systems, such as thermalization, many-body localization, and emergent phenomena in periodically driven systems.

SUBMITTER: Xu K 

PROVIDER: S-EPMC7299620 | biostudies-literature | 2020 Jun

REPOSITORIES: biostudies-literature

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Probing dynamical phase transitions with a superconducting quantum simulator.

Xu Kai K   Sun Zheng-Hang ZH   Liu Wuxin W   Zhang Yu-Ran YR   Li Hekang H   Dong Hang H   Ren Wenhui W   Zhang Pengfei P   Nori Franco F   Zheng Dongning D   Fan Heng H   Wang H H  

Science advances 20200617 25


Nonequilibrium quantum many-body systems, which are difficult to study via classical computation, have attracted wide interest. Quantum simulation can provide insights into these problems. Here, using a programmable quantum simulator with 16 all-to-all connected superconducting qubits, we investigate the dynamical phase transition in the Lipkin-Meshkov-Glick model with a quenched transverse field. Clear signatures of dynamical phase transitions, merging different concepts of dynamical criticalit  ...[more]

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