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1. Verfasser: Ermakov, Igor
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2504.07833
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author Ermakov, Igor
author_facet Ermakov, Igor
contents We study operator growth in many-body systems with on-site spins larger than $1/2$, considering both non-integrable and integrable regimes. Specifically, we compute Lanczos coefficients in the one- and two-dimensional Ising models for spin values $S=1/2$, $1$, and $3/2$, and observe asymptotically linear growth $b_n \sim n$. On the integrable side, we investigate the Potts model and find square-root growth $b_n \sim \sqrt{n}$. Both results are consistent with the predictions of the Universal Operator Growth Hypothesis. To analyze operator dynamics in this setting, we employ a generalized operator basis constructed from tensor products of shift and clock operators, extending the concept of Pauli strings to higher local dimensions. We further report that the recently introduced formalism of equivalence classes of Pauli strings can be naturally extended to this setting. This formalism enables the study of simulable Heisenberg dynamics by identifying dynamically isolated operator subspaces of moderate dimensionality. As an example, we introduce the Kitaev-Potts model with spin-$1$, where the identification of such a subspace allows for exact time evolution at a computational cost lower than that of exact diagonalization.
format Preprint
id arxiv_https___arxiv_org_abs_2504_07833
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Operator growth in many-body systems of higher spins
Ermakov, Igor
Quantum Physics
Statistical Mechanics
We study operator growth in many-body systems with on-site spins larger than $1/2$, considering both non-integrable and integrable regimes. Specifically, we compute Lanczos coefficients in the one- and two-dimensional Ising models for spin values $S=1/2$, $1$, and $3/2$, and observe asymptotically linear growth $b_n \sim n$. On the integrable side, we investigate the Potts model and find square-root growth $b_n \sim \sqrt{n}$. Both results are consistent with the predictions of the Universal Operator Growth Hypothesis. To analyze operator dynamics in this setting, we employ a generalized operator basis constructed from tensor products of shift and clock operators, extending the concept of Pauli strings to higher local dimensions. We further report that the recently introduced formalism of equivalence classes of Pauli strings can be naturally extended to this setting. This formalism enables the study of simulable Heisenberg dynamics by identifying dynamically isolated operator subspaces of moderate dimensionality. As an example, we introduce the Kitaev-Potts model with spin-$1$, where the identification of such a subspace allows for exact time evolution at a computational cost lower than that of exact diagonalization.
title Operator growth in many-body systems of higher spins
topic Quantum Physics
Statistical Mechanics
url https://arxiv.org/abs/2504.07833