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June 12, 2026Open Access

Part 35: Phenomenological Comparison Between Relaxation Cosmology in Dual–h₄ Geometry and Standard Λcdm Cosmology

Key Points

To investigate the phenomenological similarities and differences between relaxation cosmology in Origin Geometry and standard ΛCDM cosmology.
Examined the concepts of topological relaxation and geometric stress within dual–H₄ geometry.
Compared constructs of effective expansion dynamics from both Origin Geometry and ΛCDM frameworks.
Analyzed phenomenological overlaps and potential differences without rejecting existing models.
Identified similarities in expansion dynamics, while highlighting critical differences in their underlying mechanisms.
Demonstrated how geometric stress and obstruction topology contribute to effective expansion in Origin Geometry.
Provided insights into possible avenues for falsifiability in both cosmological models.

Abstract

Previous Parts established an emergent cosmological framework within Origin Geometry (OG), in which cosmological expansion is interpreted as a coarse-grained consequence of: topological relaxation, geometric stress redistribution, and collective bulk dynamics within the dual–H₄ network. The present work investigates the phenomenological similarities and differences between: relaxation cosmology in Origin Geometry, and standard ΛCDM cosmology. Unlike ΛCDM, where expansion is primarily described through: metric dynamics, matter density, radiation, and a dark-energy sector, the OG framework considers: geometric stress, obstruction topology, and bulk collective relaxation as coarse-grained ingredients that may contribute to effective expansion dynamics. This paper does not seek to: reject ΛCDM, or claim that OG replaces standard cosmology. Instead, its objective is to identify: phenomenological overlap, potential differences, and avenues of falsifiability between the two frameworks.

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