Coherent Convergence Continuum Theory (CCCT): A Unified Framework for Coherence-Driven Self-Organization in Gradient, Optical, Plasma-Analog, and Prebiotic Systems

This paper presents the Coherent Convergence Continuum Theory (CCCT), a speculative but physically grounded framework describing how coherent wave-propagating and gradient-driven systems containing refractive gradients, convergent transport pathways, filamentary organization, energy concentration, and boundary-mediated compartmentalization may preferentially generate stable localized structures under sufficiently low turbulence. The work evolved from an initial geometry-centered hypothesis into a broader scientific framework unified by four core principles: coherence, convergence, concentration, and stable organization in nonlinear systems. Iterative synthetic simulations were conducted across three distinct physical analogs — atmospheric and caustic optical systems, simplified filamentary plasma-like systems, and gradient-driven prebiotic emergence environments. The paper introduces the Gradient-Coherence Stabilization Principle and is offered as a hypothesis-generating, experimentally testable foundation for future investigation.