Measurement-induced entanglement phase transition on a superconducting quantum processor with mid-circuit readout
Abstract
Quantum many-body systems subjected to unitary evolution with the addition of interspersed measurements exhibit a variety of dynamical phases that do not occur under pure unitary evolution. However, these systems remain challenging to investigate on near-term quantum hardware owing to the need for numerous ancilla qubits or repeated high-fidelity mid-circuit measurements, a capability that has only recently become available. Here we report the realization of a measurement-induced entanglement phase transition with a hybrid random circuit on up to 14 superconducting qubits with mid-circuit readout capability. We directly observe extensive and sub-extensive scaling of entanglement entropy in the volume- and area-law phases, respectively, by varying the rate of the measurements. We also demonstrate phenomenological critical behaviour by performing a data collapse of the measured entanglement entropy. Our work establishes the use of mid-circuit measurement as a powerful resource for quantum simulation on near-term quantum computers.
Additional Information
© The Author(s), under exclusive licence to Springer Nature Limited 2023. S.S. and A.J.M. were supported by the US Department of Energy under award no. DE-SC0019374. M.M. acknowledges J. Burks, D. McClure, S. Sheldon and M. Stypulkoski for help with access to, and use of, IBM Quantum devices. M.M. also acknowledges helpful discussions with L. Govia, E. Chen, and A. Kandala. The authors acknowledge the use of IBM Quantum services for this work. Contributions. J.M.K., S.-N.S. and A.J.M. conceived and initiated the project. A.J.M. supervised the project. J.M.K. developed the quantum simulation codebase and ran experiments on emulators and quantum hardware. M.M. contributed to the codebase and ran experiments on quantum hardware. All authors contributed to the discussion of results and writing of the paper. Data availability. Data that support the findings of this study are publicly available via the Open Science Framework at https://osf.io/wkx49/. Code availability. Code used in this study is publicly available via the Open Science Framework at https://osf.io/wkx49/. The authors declare no competing interests.Attached Files
Supplemental Material - 41567_2023_2076_MOESM1_ESM.pdf
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Additional details
- Alternative title
- Experimental Realization of a Measurement-Induced Entanglement Phase Transition on a Superconducting Quantum Processor
- Eprint ID
- 121908
- Resolver ID
- CaltechAUTHORS:20230615-216273000.1
- DE-SC0019374
- Department of Energy (DOE)
- Created
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2023-06-16Created from EPrint's datestamp field
- Updated
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2023-06-16Created from EPrint's last_modified field