This article presents the third version of the DKMM microphysical framework for possible geometries ofparticle structures. The proton is interpreted here as the primary stable open vortex node of theDynamic Cosmic Medium. The electron is interpreted as a compact compensating node, and theneutron as a compensated proton node whose open proton regime is closed, blocked, or retuned by anelectron-like compensating component. Atomic nuclei are not described as mere assemblies ofparticle-like spheres, but as multi-layer configurations of proton and neutron nodes of the medium.Version V3 adds special emphasis on the problem of the fourth layer beyond the lead region, on asingle global approximation function for neutron excess, and on the reinterpretation of so-called magicnumbers as closure values of layered nuclear stabilization. The graphs, equations, and schemes usedin this version are descriptive: they are not yet derivations from first principles of DKMM, but serve asempirical and visual guides for searching for possible transitions in the internal organization of nuclei.
Aleš Hrůza (Wed,) studied this question.