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Observation of measurement-induced quantum phases in a trapped-ion quantum computer

Many-body open quantum systems balance internal dynamics against decoherence from interactions with an environment. Here, we explore this balance via random quantum circuits implemented on a trapped ion quantum computer, where the system evolution is represented by unitary gates with interspersed projective measurements. As the measurement rate is varied, a purification phase transition is predicted to emerge at a critical point akin to a fault-tolerent threshold. We probe the "pure" phase, where the system is rapidly projected to a deterministic state conditioned on the measurement outcomes, and the "mixed" or "coding" phase, where the initial state becomes partially encoded into a quantum error correcting codespace. We find convincing evidence of the two phases and show numerically that, with modest system scaling, critical properties of the transition clearly emerge.

preprint2021arXivOpen access
Crystal NoelPradeep NiroulaDaiwei ZhuAndrew RisingerLaird EganDebopriyo BiswasMarko CetinaAlexey V. GorshkovMichael J. GullansDavid A. HuseChristopher Monroe
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Crystal NoelPradeep NiroulaDaiwei ZhuAndrew RisingerLaird EganDebopriyo BiswasMarko CetinaAlexey V. GorshkovMichael J. GullansDavid A. HuseChristopher Monroe

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