Space Quantum Topological Emergence Theory (SQTE) - Concise Version

Space Quantum Topological Emergence Theory (SQTE) takes Space as the foundation, quantum as the basis, topology as the framework, emergence as the guiding principle as its core program. Taking Space Quantum Nodes (SQN) as the unique physical ontology of the universe, this theory establishes a unified framework of real-virtual dual-layer topology and symmetry-constrained potential, without introducing ad hoc assumptions such as extra dimensions, dark matter, or dark energy.This version formally defines the three-dimensional core topological scales: holographic active node density ρ, topological coupling coefficient ξ, and topological stability scale φ, realizing their bidirectional unique mutual derivation. The topological stability scale φ is elevated to an axiomatic level as an inherent mathematical constant of space and a cross-scale self-consistency core. Based on six mutually independent core axioms, SQTE derives the topological origin of the speed of light c and Planck constant h from first principles, rigorously recovers the core laws of special relativity, quantum mechanics, general relativity, and key features of the Standard Model at low energy scales, and yields falsifiable predictions at the Planck scale at high energy scales.The theory naturally explains the origin of gravity, parity non-conservation, holographic principle, and cosmic expansion dynamics. It negates the heat death hypothesis by structured entropy reduction, and provides unique testable predictions including cosmic fractal evolution, black hole compactification stability, and the topological origin of the Hubble tension. All effects are quantitatively constrained by the strong correlation of ρ–ξ–φ with clear magnitudes, observable signatures, and feasible experimental schemes.This work marks the paradigm upgrade of SQTE from a conceptual framework to a refined, computable, and falsifiable theory, accomplishing the fundamental unification of spacetime, quantum, gravity, and matter.