CPQ Theory — A Unified Framework from Spacetime Quanta to Cosmology (Books I–III)

Title: CPQ Theory — A Unified Framework from Spacetime Quanta to Cosmology (Books I–III) Authors: Andrea Porschová and collaborators Type: Preprint Description: A three-volume treatise presenting CPQ (Spacetime Quantum) theory — a theoretical framework describing reality as a dynamical structure composed of discrete spacetime quanta. The fundamental element is the CPQ: an elementary, indivisible unit possessing two quantised degrees of freedom — shape (ΔT, torsion) and volume (ΔV, density). All physical phenomena — forces, particles, spacetime geometry, and cosmological evolution — arise as excitations or topological configurations of the CPQ field. Book I — CPQ Matrix and Metric establishes the axiomatic foundations: the discrete CPQ matrix as the fundamental substrate of reality; the emergence of metric, space, and time from topology and excitation dynamics; response limits and causality; the unified CPQ Lagrangian (Master Equation) from which Maxwell's equations, Einstein's field equations, and quantum mechanics emerge as limiting cases. The framework is background-independent and requires neither extra dimensions nor supersymmetry. Book II — Particles and Fields descends into the microscopic domain, demonstrating how particles emerge as stable topological configurations (nodes) of the coupled ΔT–ΔV field. Spin, charge, and mass are derived from geometry and topology rather than postulated. The book develops the full taxonomy of node stability, field generation mechanisms, interaction types, quantisation of modes, and composite particle formation. Parity violation in the weak interaction receives a geometric explanation through the chirality of ΔT configurations. Book III — Dynamics and Evolution of the Universe applies the same ΔT–ΔV dynamics to cosmological scales. The origin of the universe is described not as a singularity but as a critical fluctuation crossing an energetic-gradient threshold. Cosmic expansion is reinterpreted as propagation of the active CPQ phase. Two major open problems receive natural explanations without introducing new entities: dark matter as deep ΔV wells with minimal ΔT admixture, and dark energy as a global ΔT phase drift. The CPQ universe is shown to be finite, singularity-free, and evolving in open cycles of growth, saturation, transformation, and recondensation.