What question did this study set out to answer?

The aim is to introduce the Universal Stability Law (USL) as a unifying principle for understanding stability and transitions in nonlinear systems.

January 23, 2026Open Access

The Universal Stability Law (USL): A Unified Framework for Nonlinear Pattern Formation and Stability Transitions

Key Points

The aim is to introduce the Universal Stability Law (USL) as a unifying principle for understanding stability and transitions in nonlinear systems.
Conducted simulations of reaction–diffusion fronts, coupled-field models, and noise-driven systems
Defined the stability boundary using the ratio ϕ=F/C
Provided data and scripts for full reproducibility
Demonstrated that F=C marks the onset of instability across various systems
Unified diverse fields like morphogenesis, ecology, and neural dynamics under a common criterion

Abstract

This work introduces the Universal Stability Law (USL), a general principle predicting stability and pattern transitions across nonlinear systems. The law defines the boundary between ordered and unstable regimes by the ratio ϕ=F/C = F/Cϕ=F/C, where FFF represents driving and CCC dissipation. Using simulations of reaction–diffusion fronts, coupled-field models, and noise-driven systems, we demonstrate that F=CF=CF=C universally marks the onset of instability. The study unifies diverse domains — from morphogenesis and ecology to neural dynamics — under a single geometric criterion for nonlinear stability. All data and simulation scripts are provided for full reproducibility.

The Universal Stability Law (USL): A Unified Framework for Nonlinear Pattern Formation and Stability Transitions

Key Points

Abstract

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