QM-6: Quantum Mechanics in CPP: Full Synthesis — From Four Primitives to Quantum Field Theory

Abstract: QM-6 is the QM series capstone, showing that all of quantum mechanics emerges in Conscious Point Physics from four primitives: Conscious Points, phase-carrying Displacement Increment bits, the 600-cell lattice, and the Nexus. The complex DI-bit amplitude evolves by deterministic hopping yielding the Schrödinger equation in the continuum limit (QM-1); simultaneous propagation along all geodesics gives the discrete Feynman path integral and superposition (QM-2); the Nexus maintains non-separable joint states giving entanglement and the Bell-CHSH bound 2 sqrt 2 with no-signaling (QM-3); DP Sea decoherence produces apparent collapse with pointer basis fixed at SSV eigenstates (QM-4); and collective 600-cell eigenmodes give field operators, commutation relations, and finite renormalization (QM-5). All lattice corrections are of order (l_P/lambda)^2 and unobservable at laboratory scales. The hierarchy problem is finite, Standard Model masses remain an open problem, and the entire QM sector is derived from four primitives with no new postulates.