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Noisy Approach to Intrinsically Mixed-State Topological Order

Ramanjit Sohal, Abhinav Prem

2025PRX Quantum53 citationsDOIOpen Access PDF

Abstract

We propose a general framework for studying two-dimensional (2D) topologically ordered states subject to local correlated errors and show that the resulting mixed state can display (imTO)—topological order that is not expected to occur in the ground state of 2D local gapped Hamiltonians. Specifically, we show that decoherence, previously interpreted as anyon condensation in a doubled Hilbert space, is more naturally phrased as, and provides a physical mechanism for, “gauging out” anyons in the original Hilbert space. We find that gauging out anyons generically results in imTO, with the decohered mixed state strongly symmetric under certain anomalous 1-form symmetries. This framework lays bare a striking connection between the decohered density matrix and , which can appear as anomalous surface states of three-dimensional topological orders. Through a series of examples, we show that the decohered state can display a classical memory, encode logical qubits (i.e., exhibit a quantum memory), and even host chiral or nonmodular topological order. We argue that a partial classification of imTO is given in terms of nonmodular braided-fusion categories.

Topics & Concepts

Topological quantum computerAnyonToric codeHilbert spaceHomogeneous spacePhysicsState (computer science)QubitTopology (electrical circuits)Theoretical physicsTopological orderQuantumMathematicsQuantum mechanicsCombinatoricsAlgorithmGeometryQuantum many-body systemsQuantum and electron transport phenomenaTopological Materials and Phenomena
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