Non-Localized Coherence Configurations in Field-Depth (ζ)

Description This preprint presents a speculative extension of the Field Matrix (FM) framework, examining the possibility that coherence-stable configurations may exist without producing localized projections in three-dimensional space. Within the FM formalism, stability is defined by global coherence conditions across spatial coordinates and a field-depth parameter (ζ). While previous work has focused on configurations that generate observable, localized structures, the underlying stability condition does not, in principle, require spatial projection. This work explores the implications of this observation by considering a class of configurations characterized by reduced sequential anchoring and dominant lateral coherence structure. The analysis remains qualitative and is restricted to internal consistency within the framework. No claims are made regarding the physical existence or detectability of such configurations. Instead, the objective is to examine whether the FM framework admits a broader class of coherence-stable solutions than those typically associated with observable matter. If supported by further theoretical and empirical development, this perspective suggests that localized matter may represent a subset of a more general coherence-defined stability landscape.