This research presents a dynamical extension to the Anthropic Spacetime Interface (ASIT) framework, proposing that spacetime is an active construction process rather than a static metric. We introduce the concept of Potential Drift (Γ(τ)), positing that cosmic expansion represents a fundamental relaxation and thinning of an underlying Gravitational Scaffolding defined in configuration space C. Key contributions include:• Resolution of the Hubble Tension: Re-interpreting cosmological constants as observer-dependent interface parameters subject to field drift.• Dark Matter Alternatives: Explaining galactic rotation curves through the radial thinning of scaffolding tension.• Energy Locking Mechanism: Defining celestial stability through local potential minima and predicting the eventual Dissolution of Matter as field gradients fall below the critical threshold Λlock.• Black Hole Ruptures: Re-framing black holes as structural fractures in the scaffolding where the spacetime dynamic construction process fails. This work bridges the gap between emergent gravity, information theory, and anthropic reasoning, offering testable predictions for non-classical orbital drift and interface-dependent observation.
Yung-Cheng Ku (Wed,) studied this question.