Spontaneous strong symmetry breaking in open systems: Purification perspective
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1.
California Institute of Technology
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2.
Princeton University
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3.
University of Tokyo
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4.
Northeastern University
Abstract
We explore the effect of decoherence on many-body mixed states from a purification perspective. Here, quantum channels map to unitary transformations acting on a purified state defined within an extended Hilbert space. First, we exploit this approach to analyze the phenomenon of spontaneous strong-to-weak symmetry breaking (sw-SSB) triggered by strongly symmetric local quantum channels. We find that sw-SSB for mixed states relates to proximity to a symmetry-protected topological (SPT) order in the purified state. Remarkably, the measurement-induced long-range order in the purified SPT state, as characterized by the Rényi-2 correlator, mirrors the ensuing long-range order in the mixed state due to sw-SSB. Moreover, we establish a 1-to-1 correspondence between various sw-SSB order parameters for the mixed state, and strange correlators in the purification, which signify the SPT order. This purification perspective is further extended to explore intrinsic mixed-state topological order and decoherent symmetry-protected topological phases.
Copyright and License
©2024 American Physical Society.
Acknowledgement
We are grateful to J.-Y. Lee, F. Pollmann, A. Potter, S. Sang, R. Vasseur, R. Verresen, and Y. Zhang for helpful discussions and feedback. We especially thank J. Zhang and C. Wang for explaining the relation between optimal purification and fidelity. This work was performed in part at Aspen Center for Physics (P.S., M.O., Y.Y.), which is supported by National Science Foundation Grant No. PHY-2210452 and Durand Fund. This research was also supported in part by Grants No. NSF PHY-1748958 and No. PHY-2309135 to the Kavli Institute for Theoretical Physics (KITP). P.S. acknowledges support from the Caltech Institute for Quantum Information and Matter, an NSF Physics Frontiers Center (NSF Grant No. PHY-1733907), and the Walter Burke Institute for Theoretical Physics at Caltech. S.G. acknowledges support from an Institute for Robust Quantum Simulation (RQS) seed grant. M.O. was partially supported by JSPS KAKENHI Grant No. JP24H00946.
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Additional details
- National Science Foundation
- PHY-2210452
- National Science Foundation
- PHY-1748958
- National Science Foundation
- PHY-2309135
- National Science Foundation
- PHY-1733907
- California Institute of Technology
- Japan Society for the Promotion of Science
- JP24H00946
- Accepted
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2024-09-30Accepted
- Available
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2024-10-23Published online
- Caltech groups
- Institute for Quantum Information and Matter, Walter Burke Institute for Theoretical Physics
- Publication Status
- Published