The Damascus Topology Model of Spacetime: Trans-Aeon Flux and Cosmic Microwave Background Imprints

The Damascus Topology Model (DTM) of Spacetime (Version 3) introduces a scale-dependent, non-differentiable quantum fractal framework that replaces the smooth classical manifold to resolve both the microscopic singularity paradox and the macroscopic dark energy problem. This updated iteration incorporates a novel "Trans-Aeon Echo Escape" mechanism to reconcile the framework with strict new gravitational wave boundary limits established by the pristine Kerr ringdown of event GW250114. Rather than back-scattering off macroscopic reflective surfaces to produce observable local echoes, high-frequency quasinormal modes are trapped via spontaneous dimensional reduction and Kerr rotational shear within 1+1D non-commutative topological folds. By enforcing a strict hyperbolic scale limit (a (t) = P² + (kt) ²), gravitational collapse halts at the Planck scale (P) where perfect matter-antimatter annihilation triggers a quantum bounce, injecting the trapped energy as a structured trans-aeon flux (F₀₄₎₍) directly into the primordial tensor perturbations of a subsequent daughter universe. This mechanism provides a robust, first-principles explanation for the lack of local post-merger interferometric echoes while establishing a testable, scale-invariant log-periodic ripple signature hidden within the daughter universe's Cosmic Microwave Background (CMB) power spectrum.