Semantic Gravitation is an open research programme investigating whether meaning can be modelled as a dynamical entity with its own geometry, stability properties, and flow laws, analogous in structure to physical field theories. This sixth paper completes the formal arc of the Semantic Gravitation series by introducing a compact global attractor K as the organising centre of semantic dynamics on a separable Hilbert space S generated by contradiction-energy functionals W. On this basis, it develops the tripartite K–P–R architecture of core, projection, and relation, and formulates a refined local geometry around the attractor through the C/B/A coherence axes, axis-resolved gradients, curvature components, semantic decoherence rates, stochastic probability currents, and branching–closure dynamics. The field-theoretic completion is given by the Lagrangian of Vectorial Emergence (LOVE), an effective variational principle for S-valued semantic fields on spacetime. Within this structure, the paper connects contradiction-energy potentials, gradient systems, Fokker–Planck dynamics, semantic free energy, emergent vector fields, and induced semantic tensors into a unified mathematical framework. A further bridge to spacetime physics is proposed through the hypothesis of dark matter as relational inertia: the suggestion that certain large-scale gravitational anomalies may reflect mesoscopic regimes of relational integration and continuation bookkeeping rather than additional particulate matter. Paper VI is intended both as a mathematical synthesis of the six-part series and as a foundation for further computational, empirical, and theoretical work on inner-space dynamics, bodies, ego-like attractors, consciousness, technical systems, multi-agent semantics, civilisation-scale organisation, and semantic cosmology.
Gerrit Klawitter (Sat,) studied this question.