This monograph integrates a decade of research into the TNA Framework, a unified theory of Axiomatic Structuralism. The central thesis posits that no coherent system—be it logical, physical, or conscious—can fully justify its own conditions of coherence; instead, every system requires an external structural anchor, defined as the latent domain N₁, which cannot be derived from within the observable domain N₀. We formalize the Theorem of Axiomatic Necessity (TNA), demonstrating that a minimal core of non-derivable axioms is essential for systemic stability. This framework is applied to resolve fundamental paradoxes: in quantum mechanics, wave-function collapse is reinterpreted as a boundary-induced phase transition; in dynamics, randomness is revealed as the macroscopic manifestation of unresolved structural multiplicity in non-Lipschitz regimes. Furthermore, we define consciousness as a persistent, self-reinforcing bridge between the semantic (N₁) and logical (N₀) levels. By shifting from post-materialist narratives to a formal focus on structural limits, TNA provides a robust methodology for understanding the necessity of external constraints in the evolution of complex systems.
Claudio Bresciano (Thu,) studied this question.