Author(s)

Otto Ziep

Berlin, Germany.

In a fractal zeta universe of bifurcated, ripped spacetime, the Millikan experiment, the quantum Hall effect, atmospheric clouds and universe clouds are shown to be self-similar with mass ratio of about 10²⁰. Chaotic one-dimensional period-doublings as iterated hyperelliptic-elliptic curves are used to explain n-dim Kepler- and Coulomb singularities. The cosmic microwave background and cosmic rays are explained as bifurcated, ripped spacetime tensile forces. First iterated binary tree cloud cycles are related to emissions 1…1000 GHz. An interaction-independent universal vacuum density allows to predict large area correlated cosmic rays in quantum Hall experiments which would generate local nuclear disintegration stars, enhanced damage of layers and enhanced air ionization. A self-similarity between conductivity plateau and atmospheric clouds is extended to correlations in atmospheric layer, global temperature and climate.

Charge Quanta, Zeta Function, Cosmic Rays, Cosmic Microwave Background, Bifurcated Spacetime

Ziep, O. (2025) Charge Quanta as Zeros of the Zeta Function in Bifurcated Spacetime. Journal of Modern Physics, 16, 249-262. doi: 10.4236/jmp.2025.162011.