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DY: Fachverband Dynamik und Statistische Physik

DY 27: Poster: Nonlinear Dynamics, Pattern Formation, Granular Matter

DY 27.10: Poster

Mittwoch, 19. März 2025, 15:00–18:00, P4

QH plateau and CMB- CR near nontrivial zeros of the zeta function — •Otto Ziep — 13089 Berlin, Am Wasserturm 19a

Chaotic one-dimensional period-doublings as iterated hyperelliptic-elliptic curves are used to derive n-dim Kepler- and Coulomb singularities. Millikan experiment, quantum Hall (QH) effect, atmospheric clouds and universe clouds are self-similar of mass ratio 10^20 in a fractal zeta universe (FZU) of ripped spacetime [1]. The cosmic microwave background (CMB) and cosmic rays (CR) are explained as bifurcating ripped spacetime tensile forces below and above first Sharkovsky cycles from the tree root up to third branch. At QH CMB emissions 1...1000 GHz are predicted by the iterated binary tree cloud which are possibly already detected [2]. An interaction-independent universal vacuum density allows to predict large area correlated CR in QH-experiments which would generate local nuclear disintegration stars, enhanced damage of layers and enhanced air ionization [1]. A 10^20 self-similarity between conductivity plateau and atmospheric cloud as a superfluid having two cycles of entropy and temperature allows us to conclude that CMB and CR correlations in atmospheric layer influence global temperature and climate.

[1] The poster is based on trilogy Nucleosynthesis in Thin Layers, Fractal zeta universe and cosmic-ray-charge-cloud superfluid, The sensitive balance by O. Ziep www.epubli.de in 03/24,11/24, 01/25

[2]R. Bisognin und others, Microwave photons emitted by fractionally charged quasiparticles Nat, Commun, 2019.

Keywords: chaotic one-dimensional map; cosmic microwave background; fractal zeta universe; global temperature oscillations; conductivity plateau