This paper establishes the complete pre-hydrogen sequence within the Big Flare-Up Theory, from the first stable matter condensation through to the formation of the first atom, and derives the physical nature of several quantities the Standard Model treats as given rather than explained. A free-energy functional derived from the Spaticle field identifies n=3 as the first stable cooperative core, and the three-core is shown to generate its own electron through the 3+e mechanism, with n=4 partition energies confirming this asymmetric arrangement is decisively preferred over symmetric alternatives. A dynamic assembly simulation traces the continuous physical route from this 3+e condensation to ordinary hydrogen (protium), the first atom in the BFUT sequence: the three-core maps to a proton through an effective role assignment of (+2/3, +2/3, -1/3), the generated unit maps to an electron of charge -1, and their combination is ordinary hydrogen. Charge is shown to be a mechanical property, not a primitive one: it is fixed by the counter-rotation direction imparted by the gear geometry of the three-sphere packing, with the familiar fractional charges emerging from this role map rather than assumed in advance. Mass is fixed by the same packing geometry through the connecting identity mₚ/ (6π⁵) = 0. 511009 MeV, and particle identity itself is explained structurally, since two electrons anywhere in the universe are identical because each is an independent realisation of the same stability minimum recreated from the same substrate at the same ρₛ. The same stability analysis yields a direct physical mechanism for matter-antimatter annihilation and a structural account of the matter-antimatter asymmetry, without requiring an asymmetric initial condition. Robustness scans across one, two, and three-dimensional parameter space show the 3+e configuration is the minimum-energy outcome in 97. 56%, 95. 95%, and 90. 43% of cases respectively; the remaining few percent, where a stable 3+e condensation does not form, is shown to generate its own cancellation wave at the moment of formation, identified here as the antiparticle. This derived stability hierarchy is further shown to be consistent with the experimental history of particle physics, in which unstable exotic multiquark configurations decay while ordinary proton-electron matter remains the dominant stable baseline across every explored energy scale. The condensation scale at the centre of this derivation is independently confirmed by a second, unrelated route: substituting six independently measured physical constants (α, e, ε₀, mₚ, c, rₚ) into standard electromagnetism extracts R₀ = 1. 2727 with no BFUT assumptions, agreeing with the geometrically derived R₀ = 1. 27348 to 0. 0007%. These two routes, each unaware of the other, converge on the same condensation scale, mutually validating the condensation functional and every result built upon it. The resulting framework is presented as a constructive existence proof and structured-threshold model under BFUT assumptions, not as a replacement for QCD or the Standard Model.
Vijay Shankar Sharma (Sun,) studied this question.