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arxiv 2507.07287 v2 pith:AIF2FOLI submitted 2025-07-09 math-ph math.MP

Finitely Correlated States Driven by Topological Dynamics

classification math-ph math.MP
keywords omegamathcalmathbbalgebradisorderedalmostergodicspace
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Let $(\Omega, \P)$ be a standard probability space and let $\vartheta:\Omega \to \Omega$ be a measure preserving ergodic homeomorphism. Let $\mathcal{A}$ be a $C^*$-algebra with a unit and let $\mathcal{A}_{\mathbb{Z}}$ be the quasi-local algebra associated to the spin chain with one-site algebra $\mathcal{A}$. Equip $\mathcal{A}_{\mathbb{Z}}$ with the group action of translation by $k$-units, $\tau_k\in Aut(\mathcal{A}_{\mathbb{Z}})$ for $k\in \mathbb{Z}$. We study the problem of finding a disordered matrix product state decomposition for disordered states $\psi(\omega)$ on $\mathcal{A}_{\mathbb{Z}}$ with the covariance symmetry condition $\psi(\omega) \circ \tau_k = \psi(\vartheta^k \omega)$. This can be seen as an ergodic generalization of the results of Fannes, Nachtergaele, and Werner [31]. To reify our structure theory, we present a disordered state $\nu_\omega$ obtained by sampling the AKLT model [2] in parameter space. We go on to show that $\nu_\omega$ has a nearest-neighbor parent Hamiltonian, its bulk spectral gap closes, but it has almost surely exponentially decaying correlations, and finally, that $\nu_\omega$ is time-reversal invariant with a Tasaki index of $-1$ almost surely.

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  1. Parent Hamiltonians of Ergodic Matrix Product States

    math-ph 2026-07 unverdicted novelty 7.0

    Ergodic MPS are the unique frustration-free ground states of parent Hamiltonians that may be infinite-range and need not be gapped.