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Hauptverfasser: Bejan, Mircea, Claeys, Pieter W., Yao, Jiangtian
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2511.21487
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author Bejan, Mircea
Claeys, Pieter W.
Yao, Jiangtian
author_facet Bejan, Mircea
Claeys, Pieter W.
Yao, Jiangtian
contents Nonstabilizerness, or quantum magic, presents a valuable resource in quantum error correction and computation. We study the dynamics of locally injected magic in unitary Clifford circuits, where the total magic is conserved. However, the absence of physical observables quantifying magic precludes a direct microscopic or hydrodynamic description of its local distribution and dynamics. Using insights from stabilizer quantum error correcting codes, we rigorously show that the spatial distribution of magic can be inferred from a canonical representation of low-magic states, dubbed the bipartite magic gauge. Moreover, we propose two operationally relevant magic length scales. We numerically establish that, at early times, both length scales grow ballistically at distinct velocities set by the entanglement velocity, after which magic delocalizes. Our work sheds light on the spatiotemporal structure of quantum resources and complexity in many-body dynamics, opening up avenues for investigating their transport properties and further connections with quantum error correction.
format Preprint
id arxiv_https___arxiv_org_abs_2511_21487
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Magic spreading under unitary Clifford dynamics
Bejan, Mircea
Claeys, Pieter W.
Yao, Jiangtian
Quantum Physics
Nonstabilizerness, or quantum magic, presents a valuable resource in quantum error correction and computation. We study the dynamics of locally injected magic in unitary Clifford circuits, where the total magic is conserved. However, the absence of physical observables quantifying magic precludes a direct microscopic or hydrodynamic description of its local distribution and dynamics. Using insights from stabilizer quantum error correcting codes, we rigorously show that the spatial distribution of magic can be inferred from a canonical representation of low-magic states, dubbed the bipartite magic gauge. Moreover, we propose two operationally relevant magic length scales. We numerically establish that, at early times, both length scales grow ballistically at distinct velocities set by the entanglement velocity, after which magic delocalizes. Our work sheds light on the spatiotemporal structure of quantum resources and complexity in many-body dynamics, opening up avenues for investigating their transport properties and further connections with quantum error correction.
title Magic spreading under unitary Clifford dynamics
topic Quantum Physics
url https://arxiv.org/abs/2511.21487