The Karahan Model: Cosmic Origins via Rotating Inheritance Part 2: Observational Validation Protocol for Inherited Torsion

This publication introduces the Karahan Model, a novel cosmological framework that proposes the origin of our universe from the interior of a rotating (Kerr) black hole via a torsion-triggered "Big Bounce. " Departing from the isotropic assumptions of the standard model, the Karahan Model utilizes Einstein-Cartan theory to derive the observed cosmic expansion from inherited angular momentum (Spin J). The model provides a mechanical explanation for the "Axis of Evil" and other observed cosmic anisotropies. Key features of the Karahan Model include: Inherited Torsion: The derivation of an effective cosmological constant (₄₅₅) from the parent black hole's rotation. Bypass Energy Flow: An explanation for the 5% baryonic matter and 95% dark energy-equivalent ratio based on Kerr-ring singularity transition efficiency. The Karahan Swirl: A predicted global cosmic flow that influences large-scale structure. Observational Validation (Falsifiability): The model offers four specific, measurable signatures for empirical validation: Galaxy Spin Correlation: A predicted 76% alignment correlation of galactic rotational axes on supercluster scales (>5 deviation). SMBH Clustering: Non-random distribution patterns of supermassive black holes aligned with torsion field variations. Dark Energy Gradient: Anisotropic variations in expansion density (approx. 4. 5 sigma deviation) following a specific sector grid (A-D). Sector-Specific Torsion Indices: Unique directional "fingerprints" in gravitational lensing shear analysis. This preprint serves as a foundation for further investigation into torsion-based cosmology and the geometric inheritance of spacetime properties.