We report a systematic calibration of the Ouroboros chaoiton solution against the three key observables of the electron: the g-factor (gyromagnetic ratio), the mass-to-charge ratio, and the elementary charge. At the parameter point g = 1.0625, λ = 1.0, ω = 1.0, the calibrated chaoiton reproduces: (1) the electron g-factor to 0.116% without fine-tuning; (2) the electron mass-to-charge ratio to 0.56%; and (3) the elementary charge, predicted with no remaining free parameters, to 0.56%. The physical length scale Rₚʰʸˢ = 191 fm is fixed by matching the chaoiton energy to the electron rest mass. The chaoiton carrier frequency (1.033 MeV, 2.50 × 10²⁰ Hz) agrees with the electron Zitterbewegung frequency to 1.2%, providing an independent self-consistency check. These results constitute the first sub-percent match of all three electron observables from a superrenormalizable, point-particle-free Lagrangian with only 2–3 free parameters.
Werbos et al. (Thu,) studied this question.
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