Quantum Informational Geometrodynamics: Foundations of an Emergent Unified Theory

We consolidate, in a single self-contained manuscript, the complete develop-ment of Quantum Informational Geometrodynamics (Q-IG) – a programme thatderives spacetime, gravitation, gauge symmetries, and particle phenomenologyfrom a discrete causal network of quantum–informational degrees of freedom. Thepresent article integrates all conceptual refinements, mathematical results, andphenomenological analyses previously disseminated in separate notes, ensuringfull consistency of notation and incorporating every subsequent correction. A rig-orous definition of the informational metric, a variational derivation of Einsteindynamics, an explicit mechanism for emergent U(1) × SU(2) × SU(3) gaugeinvariance, and a topological classification of quasiparticles are presented in a uni-fied framework. Testable predictions – modified dispersion relations, black-holeentropy corrections, a fundamental cosmological constant, and interferometricnoise – are summarised in their latest form.Keywords: Quantum gravity, information theory, causal networks, emergentgeometry, gauge symmetry, black-hole thermodynamicsSubmission status: This preprint is currently under review at Foundations of Physics (Springer), submitted May 2025.