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This research focuses on establishing the existence of a higher-order Yang–Mills–Higgs flow and its implications in physics.

February 24, 2026Open Access

The Higher Order Yang–Mills–Higgs Flow Over Riemannian Manifold

Key Points

This research focuses on establishing the existence of a higher-order Yang–Mills–Higgs flow and its implications in physics.
Introduced a higher-order Yang–Mills–Higgs functional
Employed de Turck’s trick for local existence proof
Analyzed conditions for long-time existence based on derivatives and potential degree
Established local existence of the negative gradient flow
Demonstrated long-time existence under specific conditions
Clarified the importance of higher-order terms in physical applications

Abstract

In this paper, we introduce a novel higher-order Yang–Mills–Higgs functional YMHₖ (, u), which is closely associated with a generalized Higgs-like potential W. First, by employing de Turck’s trick, we establish the local existence of the negative gradient flow, thus refining the ellipticity argument presented in Car. Var. PDE 58 (2019), 100. We establish the long-time existence of the flow under conditions on the order of derivatives appearing in the functional and on the degree of the potential W. This result refines and extends the one given in J. Aust. Math. Soc. 113 (2022), 257-287. At last, we discuss the physical applications of our higher-order Yang–Mills–Higgs theory and its long-time flow, clarifying the rationale for the higher-order terms and the polynomial potential, rooted in specific mathematical models.

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Cite This Study

Cao et al. (Sun,) studied this question.

synapsesocial.com/papers/699d3f9ede8e28729cf643fa https://doi.org/https://doi.org/10.1007/s44198-026-00391-z

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