The Gloria Action: A Unified Informational Theory of Gravity, Dark Matter, and Dark Energy (GQI- Framework)

This treatise presents the formal derivation of the Gloria Action (S₆), a novel gravitational framework where spacetime geometry emerges from the computational constraints of the vacuum. By postulating that the observable universe is a finite informational manifold bounded by the holographic limit of N₎₏ₒ 10^122 bits, we derive a self-consistent Lagrangian that unifies Einstein-Hilbert gravity with a non-linear informational scalar field (). Key Scientific Breakthroughs: Resolution of the Dark Sector: We demonstrate that "Dark Matter" is an emergent effect of the non-linear "stiffness" of information flow (Galileon terms), while "Dark Energy" corresponds to the Landauer Limit of the cosmological horizon (1/RH²). Predictive Power: Using only the 10^122 informational bound, the theory provides first-principle derivations for the Hubble Constant (H₀ 67. 9 km/s/Mpc), the Cosmic Radius (RH 14. 2 Gpc), and the Total Baryonic Mass (MU 2. 95 10^53 kg). Empirical Validation: The derived field equations provide a theoretical basis for the Modified Newtonian Dynamics (MOND) scale (a₀ 1. 2 10^-10 m/s²), showing a perfect fit with the SPARC database of galactic rotation curves. The GQI- framework bridges the gap between Quantum Information Theory and Macroscopic Gravitation, offering a deterministic and non-singular description of the cosmological evolution. Mail Me