This short paper introduces a new interpretation of atomic and subatomic behavior in which bosons, fermions, and all “particle” signatures are understood as mode transitions within the dynamic field structure of the atom. The work does not alter or contradict any known empirical measurements — including spectroscopy, scattering data, collider signatures, or electron‑density imaging. Instead, it reframes the same evidence through a structural, mode‑dynamics lens. The paper establishes the conceptual foundation for treating stable identities (fermions) as persistent interference modes and treating exchange events (bosons) as transitions between those modes. All observed quantum behaviors remain intact; only the ontology changes. This upload serves to formally timestamp and document the idea, establishing authorship and priority for the mode‑dynamics interpretation. The accompanying image illustrates how bosonic and fermionic behavior emerges naturally from field‑mode geometry and transitions.
James Reeves (Thu,) studied this question.