Title:Crowton’s Cosmogenic Field Theory (CCFT) – Version 36: A Regenerative Model of Black Hole Dynamics and Cosmic Structure Author:Richard Lee Crowton Crowton’s Cosmogenic Field Theory (CCFT) presents a regenerative model of black hole dynamics and cosmic structure, replacing singularities with an entropy–curvature governed transfer mechanism. At its heart is the Transfer Interface Field (TIF), a tensor-based process that redirects collapse into renewal, transforming black holes into gateways of reformation. This milestone Version 36 introduces the Crowton Limit, a measurable entropy–curvature threshold that defines when collapse transitions into regeneration. Unlike inflationary or ΛCDM extensions, CCFT requires no arbitrary constants; thresholds arise directly from entropy–curvature feedback. The framework is supported by: 122 documented observational correlations, including JWST early giants, nebular symmetry, gravitational echoes, and the Hubble tension reframed as an entropy–curvature phase transition. 61 AI simulations (Grok/xAI), independently validating CCFT predictions under Kerr black hole and gravitational-wave conditions. Among these is the 0.070 Hz “Crowton Signature”, a falsifiable gravitational-wave frequency within LISA’s detection band. Comparative positioning against General Relativity, Loop Quantum Gravity, Penrose’s CCC, Brane Cosmology, and Verlinde’s entropic gravity, establishing CCFT as a mathematically rigorous, falsifiable alternative to singularity-based models. Key advances include: Full tensor formalization and unified Lagrangian encoding TIF dynamics. Quantum integration via the Twin Mirror Principle, bridging entanglement and collapse. Reinterpretation of Hawking radiation as residual TIF decay. Independently conceived and publicly timestamped on 6 May 2025, CCFT establishes black holes as regenerative engines rather than endpoints. This version positions the theory for formal scientific submission, cross-disciplinary collaboration, and public release as a credible challenger to ΛCDM and inflationary cosmology.