This work develops a Dynamical Informational Field Theory (DIFT) interpretation of electromagnetism, U(1) phase structure, and gravity as scale-dependent projections of deeper organizational dynamics. Instead of treating charge, gauge symmetry, and gravitational coupling as primitive ingredients, the paper investigates whether they can be understood as emergent consequences of persistent phase organization, low-impedance transport, memory-mediated stabilization, and spectral-field coherence. The central thesis is “organization before scale”: physical constants and interaction channels are not introduced as independent ontological primitives, but arise when a dynamical informational field stabilizes into recurrent, transport-capable structures. Within this framework, U(1) is interpreted as an effective phase-regulatory symmetry; electromagnetism appears as coherent phase-current organization; and gravity is approached as a large-scale impedance/curvature projection of the same underlying informational dynamics. The manuscript combines theoretical construction, numerical diagnostics, and falsifiable claim boundaries. It does not claim to replace quantum field theory, general relativity, or the Standard Model. Rather, it proposes a research program for testing whether electromagnetic and gravitational phenomena can be derived from a common organizational substrate before scale calibration is imposed. Keywords: Dynamical Informational Field Theory; DIFT; electromagnetism; U(1); gravity; phase organization; gauge symmetry; emergence; informational field; low-impedance transport; dynamostatic organization.
Sławomir Krakowski (Tue,) studied this question.