Dimensionless Information-Based Dark Energy Physics and the Recyclable Nature of Black Holes

Abstract:

A dimensionless cosmological framework is presented in which information physics and dark energy form a proportionally inverse, self-regulating geometric relationship. The derived ratio, C = (I ×Λ)/(3π), suggests that the universe has processed ∼91% of its informational capacity. This logic is then applied to black hole physics, revealing that each black hole is a fully informationally saturated dark energy unit. The Cosmic Information Saturation Index is then sourced from first principles with a scalar field Lagrangian and a Euler-Lagrange equation of motion. Black holes are then revisited and analyzed as units that eventually propagate to fulfill the value of the theoretical maximum information ceiling,∼10^122 bits. A reassigning of Ψ is proposed to represent informational gradients in relationship to rising C (information saturation) throughout the universe. UV divergence is explored and solved utilizing the convergent nature of CISI and the Lambert W mechanism. Universal reiteration ad infinitum is explored.