Quantum Ice as a Pregeometric Vacuum: Ab Initio Derivation of the Standard Model and Emergent Gravity presents a revolutionary proposal in the foundations of theoretical physics. The author, Rogelio Pérez Casadiego, develops the Unified Effective Theory of Quantum Gravity and Baryonic Matter (UET-QGBM)—a minimalist ontology in which the entire universe, from Standard Model particles to gravity, dark matter, and the arrow of time, emerges from a single, real physical state: Quantum Amorphous Ice (QAI), a coherent condensate of water (H₂O) molecules in the zero-temperature limit.

Rejecting unobservable entities such as extra dimensions, exotic particles, or dynamical spacetime geometries, the book demonstrates how the local tetrahedral structure of QAI, its global coherence, and its asymmetric quantum transition (H₂O → H⁺ + OH⁻) generate—without free parameters or phenomenological fitting:

More than metaphysical speculation, UET-QGBM is rigorously falsifiable: the book includes detailed experimental protocols—atomic interferometry, THz spectroscopy, quantum simulators—with quantitatively measurable predictions achievable with current technology (e.g., accumulated phases of Δϕ = 10⁴ rad in 1 second), requiring experimental precision under 5% error and avoiding reliance on high-energy colliders or indirect cosmological observations.

Moreover, it offers an executable computational roadmap (Appendix J) that derives the full Standard Model Lagrangian step by step from the microscopic properties of water, with no free parameters.

Addressed to physicists, philosophers of science, and rigorous thinkers, this work does not merely propose a new theory—it advances a new paradigm: fundamental physics need not postulate the invisible; it suffices to understand the everyday—in this case, a molecule that has been before us since the origin of life—to decipher the universe's deepest secret.