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Main Author: Hamzehofi, Reza
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.14566
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author Hamzehofi, Reza
author_facet Hamzehofi, Reza
contents The structure and quantification of entanglement in the W-class states are investigated under physically motivated transformations that induce mixed-state dynamics. A rigorous condition is established linking global separability to the behavior of pairwise entanglement, showing that the absence of pairwise entanglement is sufficient to guarantee complete separability of the system, provided the Hilbert-space basis is preserved. This result motivates the identification of the sum of two-tangles as a natural and effective entanglement quantifier for the W-class states. Furthermore, the commonly used $π$-tangle becomes ineffective for the maximally entangled $n$-qubit W state as the system size increases, vanishing in the large-$n$ limit. To address this limitation, the sum of $π$-tangles is introduced, which, like the sum of two-tangles, successfully quantifies the entanglement of the maximally entangled $n$-qubit W state in the large-$n$ limit. In addition, a new condition for entanglement measures is introduced, which facilitates the formulation of a well-behaved and physically meaningful entanglement measure.
format Preprint
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institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Entanglement measure for the W-class states
Hamzehofi, Reza
Quantum Physics
The structure and quantification of entanglement in the W-class states are investigated under physically motivated transformations that induce mixed-state dynamics. A rigorous condition is established linking global separability to the behavior of pairwise entanglement, showing that the absence of pairwise entanglement is sufficient to guarantee complete separability of the system, provided the Hilbert-space basis is preserved. This result motivates the identification of the sum of two-tangles as a natural and effective entanglement quantifier for the W-class states. Furthermore, the commonly used $π$-tangle becomes ineffective for the maximally entangled $n$-qubit W state as the system size increases, vanishing in the large-$n$ limit. To address this limitation, the sum of $π$-tangles is introduced, which, like the sum of two-tangles, successfully quantifies the entanglement of the maximally entangled $n$-qubit W state in the large-$n$ limit. In addition, a new condition for entanglement measures is introduced, which facilitates the formulation of a well-behaved and physically meaningful entanglement measure.
title Entanglement measure for the W-class states
topic Quantum Physics
url https://arxiv.org/abs/2512.14566