This paper presents a consolidated cross-domain investigation of the Vhistory framework, a history/persistence-based alternative to conventional dark matter. The central hypothesis is that part of the gravitational behavior traditionally attributed to dark matter may emerge from accumulated structural history generated during the evolutionary organization of matter itself. The framework was tested using real observational data across multiple domains while strictly preserving the successful astrophysical machinery and replacing only the dark matter/CDM contribution: SPARC galaxy rotation curves (143 galaxies, 83.9% win rate), Planck TT CMB spectra, gravitational lensing, Bullet Cluster 2D lensing maps and mass-separation morphology, BOSS DR12 power spectrum, CLASS precision cosmology, and full mock-covariance analyses (2048 Patchy realizations). Results show strong statistical improvements in multiple domains, including significant BIC gains in cosmology and competitive or superior performance in lensing and rotation curves. These findings suggest accumulated structural persistence may carry predictive gravitational information traditionally assigned to dark matter.
Mina Moussa (Sun,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: