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Main Authors: Li, Cihang, Ma, Teng, Shu, Jing, Zhu, Mingdi
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.17434
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author Li, Cihang
Ma, Teng
Shu, Jing
Zhu, Mingdi
author_facet Li, Cihang
Ma, Teng
Shu, Jing
Zhu, Mingdi
contents Recent developments suggest that the extremization of quantum entanglement may provide a useful organizing principle for strong dynamics. While entanglement suppression characterizes low-energy QCD, we investigate the role of entanglement maximization in the electroweak symmetry breaking sector. Focusing on the Composite Higgs Model, we analyze the process $hh \to t\bar{t}$ by treating the fermionic helicity space as a bipartite quantum system. Maximal entanglement imposes nontrivial constraints on the fermionic effective theory and leads to two simple symmetry structures in the top sector. One is the Maximal Symmetry branch, characterized by the vanishing of the Higgs-dependent form factor $Π_1$ and the finiteness of the Higgs potential. The other is a generalized $Z_2$-matching branch relating the left- and right-handed top sectors. Our results establish a quantitative connection between entanglement structure and the naturalness of electroweak symmetry breaking, and suggest that the symmetry patterns of the strong sector may be understood from the perspective of entanglement extremization.
format Preprint
id arxiv_https___arxiv_org_abs_2605_17434
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Entanglement Maximization and Symmetry Selection in Composite Higgs Models
Li, Cihang
Ma, Teng
Shu, Jing
Zhu, Mingdi
High Energy Physics - Phenomenology
Recent developments suggest that the extremization of quantum entanglement may provide a useful organizing principle for strong dynamics. While entanglement suppression characterizes low-energy QCD, we investigate the role of entanglement maximization in the electroweak symmetry breaking sector. Focusing on the Composite Higgs Model, we analyze the process $hh \to t\bar{t}$ by treating the fermionic helicity space as a bipartite quantum system. Maximal entanglement imposes nontrivial constraints on the fermionic effective theory and leads to two simple symmetry structures in the top sector. One is the Maximal Symmetry branch, characterized by the vanishing of the Higgs-dependent form factor $Π_1$ and the finiteness of the Higgs potential. The other is a generalized $Z_2$-matching branch relating the left- and right-handed top sectors. Our results establish a quantitative connection between entanglement structure and the naturalness of electroweak symmetry breaking, and suggest that the symmetry patterns of the strong sector may be understood from the perspective of entanglement extremization.
title Entanglement Maximization and Symmetry Selection in Composite Higgs Models
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2605.17434