The End of the Particle Paradigm: A First-Principles Replacement for Dark Matter from CSU Framework

This comprehensive theoretical manuscript presents Chrono Singularity Unification (CSU), a parameter-free framework that derives all "dark sector" phenomenology directly from the holographic phase space constraints of Euclidean Quantum Gravity. The paper theoretically formalizes 90 years of null particle detection results, demonstrating that dark matter is a category error: it is not an elusive particle, but an emergent thermodynamic enhancement (holographic inertia) of the gravitational vacuum.

Modeled via the ΨI state function, the framework rests on three exact topological invariants: discrete binary partition quantization (Z=2), holographic boundary saturation (N∝A), and conformal topological closure (c=1/12). From these boundary conditions alone, the paper achieves a perfect 12/12 scorecard against major cosmological tests. It natively derives the cosmic mass ratio, resolves the Hubble Tension, explains the existence of "ghost galaxies" via holographic decoherence, and predicts the exact Bullet Cluster offset to within 7.2% error—all without a single fitted parameter.