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Main Authors: Costa, A. C. S., Diniz, E. C., Neto, O. P. de Sa
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2605.29019
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author Costa, A. C. S.
Diniz, E. C.
Neto, O. P. de Sa
author_facet Costa, A. C. S.
Diniz, E. C.
Neto, O. P. de Sa
contents Quantum crossover phenomena play a central role in few-body open quantum systems, yet their identification often relies on global or model-dependent indicators. In this work, we demonstrate that crossovers can be robustly characterized through purely local measurements, establishing a direct connection between local quantum Fisher information and the onset of crossover behavior. We further demonstrate that quantum obesity does not, in general, generalize the quantum steering ellipsoid volume as a universal indicator of crossover. Instead, we identify regimes in which the ellipsoid volume remains insensitive to the transition, while the relevant signatures are encoded in the behavior of the local Bloch vector. These results reveal a geometric distinction between local and global indicators of crossovers.
format Preprint
id arxiv_https___arxiv_org_abs_2605_29019
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Quantum Crossovers Revealed by Local Measurements
Costa, A. C. S.
Diniz, E. C.
Neto, O. P. de Sa
Quantum Physics
Quantum crossover phenomena play a central role in few-body open quantum systems, yet their identification often relies on global or model-dependent indicators. In this work, we demonstrate that crossovers can be robustly characterized through purely local measurements, establishing a direct connection between local quantum Fisher information and the onset of crossover behavior. We further demonstrate that quantum obesity does not, in general, generalize the quantum steering ellipsoid volume as a universal indicator of crossover. Instead, we identify regimes in which the ellipsoid volume remains insensitive to the transition, while the relevant signatures are encoded in the behavior of the local Bloch vector. These results reveal a geometric distinction between local and global indicators of crossovers.
title Quantum Crossovers Revealed by Local Measurements
topic Quantum Physics
url https://arxiv.org/abs/2605.29019