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Matrix Product Operator Algebras II: Phases of Matter for 1D Mixed States

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arxiv 2204.06295 v2 pith:Y56ADDUV submitted 2022-04-13 quant-ph cond-mat.str-elmath-phmath.MP

Matrix Product Operator Algebras II: Phases of Matter for 1D Mixed States

classification quant-ph cond-mat.str-elmath-phmath.MP
keywords statesalgebrasquantumlocalmatterphasephaseschannels
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The classification of topological phases of matter is fundamental to understand and characterize the properties of quantum materials. In this paper we study phases of matter in one-dimensional open quantum systems. We define two mixed states to be in the same phase if both states can be transformed into the other by a shallow circuit of local quantum channels. We aim to understand the phase diagram of matrix product density operators that are renormalization fixed points. These states arise, for example, as boundaries of two-dimensional topologically ordered states. We first construct families of such states based on C*-weak Hopf algebras, the algebras whose representations form a fusion category. More concretely, we provide explicit local fine-graining and local coarse-graining quantum channels for the renormalization procedure of these states. Finally, we prove that those arising from C*-Hopf algebras are in the trivial phase.

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  1. Renormalization flows for 1D mixed states and a quantum Goursat lemma

    math-ph 2026-07 accept novelty 7.5

    Convergent renormalization trajectories of Hopf-algebra boundary MPDOs under on-site noise are classified by finite *-quantum hypergroups via a new quantum Goursat lemma.