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Ergodicity breaking from Rydberg clusters in a driven-dissipative many-body system.


ABSTRACT: It is challenging to probe ergodicity breaking trends of a quantum many-body system when dissipation inevitably damages quantum coherence originated from coherent coupling and dispersive two-body interactions. Rydberg atoms provide a test bed to detect emergent exotic many-body phases and nonergodic dynamics where the strong Rydberg atom interaction competes with and overtakes dissipative effects even at room temperature. Here, we report experimental evidence of a transition from ergodic toward ergodic breaking dynamics in driven-dissipative Rydberg atomic gases. The broken ergodicity is featured by the long-time phase oscillation, which is attributed to the formation of Rydberg excitation clusters in limit cycle phases. The broken symmetry in the limit cycle is a direct manifestation of many-body collective effects, which is verified experimentally by tuning atomic densities. The reported result reveals that Rydberg many-body systems are a promising candidate to probe ergodicity breaking dynamics, such as limit cycles, and enable the benchmark of nonequilibrium phase transition.

SUBMITTER: Ding D 

PROVIDER: S-EPMC10911772 | biostudies-literature | 2024 Mar

REPOSITORIES: biostudies-literature

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Ergodicity breaking from Rydberg clusters in a driven-dissipative many-body system.

Ding Dongsheng D   Bai Zhengyang Z   Liu Zongkai Z   Shi Baosen B   Guo Guangcan G   Li Weibin W   Adams C Stuart CS  

Science advances 20240301 9


It is challenging to probe ergodicity breaking trends of a quantum many-body system when dissipation inevitably damages quantum coherence originated from coherent coupling and dispersive two-body interactions. Rydberg atoms provide a test bed to detect emergent exotic many-body phases and nonergodic dynamics where the strong Rydberg atom interaction competes with and overtakes dissipative effects even at room temperature. Here, we report experimental evidence of a transition from ergodic toward  ...[more]

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