What question did this study set out to answer?

The research aims to classify non-equilibrium thermodynamic systems using a geometric framework based on energy accumulation and release.

April 21, 2026Open Access

The Geometry of Time A Heuristic Framework for Classifying Non-Equilibrium Thermodynamic Systems

Puntos clave

The research aims to classify non-equilibrium thermodynamic systems using a geometric framework based on energy accumulation and release.
Computed the Accumulation–Release Asymmetry (ARA) ratio from various datasets in biology, earth science, and astrophysics.
Categorized systems based on their ARA ratio within a 0-to-2 scale, identifying clustering patterns.
Analyzed deviations from the golden ratio (φ) to evaluate the effects of external forces and degradation.
Systems were classified into discrete bands based on their ARA ratio, with a notable clustering around the golden ratio.
Deviation from the golden ratio correlated with external intervention and pathological conditions.
A heuristic framework was established, highlighting its limitations and promoting further investigation.

Resumen

Cyclical systems in nature — from river basins to human lungs to stellar dynamos — operate as relaxation oscillators, spending measurable time accumulating energy and measurable time releasing it. By computing a single dimensionless metric, the Accumulation–Release Asymmetry (ARA) ratio, across publicly available datasets in biology, earth science, and astrophysics, a consistent taxonomy emerges. Systems cluster into discrete bands on a 0-to-2 scale, with the golden ratio (φ ≈ 1.618) marking the attractor for unforced, self-organising engines. Deviation from this ratio correlates with external forcing, managed intervention, or pathological degradation. This paper presents the heuristic framework, the supporting data, an honest account of its limitations, and an invitation to falsification.

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