This article and attached repository present an exploratory ab initio framework for Dynamical Informational Field Theory (DIFT), built around a spectral phase-flow ontology. Instead of treating particles, shells, orbitals, and mixing matrices as primitive inputs, the work investigates whether they can emerge as admissible organizations of a multicomponent informational field PHI. The package includes the manuscript, figures, and reproducibility materials for a proposed route from spectral phase flow to selected Standard-Model-facing observables, including CKM-like transport, proton–neutron relay organization, emergent shell structures, and nuclear prior-reduction mechanisms. It is intended for readers interested in foundational physics, emergent field theory, nuclear organization, and new ab initio approaches to physical observables.
Sławomir Krakowski (Fri,) studied this question.