The 5D to 4D projection model applied as a Lepton to Galaxy Creation   model

Kai-Wai Wong (1); Gisela A. M. Dreschhoff (1); H\"ogne Jungner (2); ((1) Department of Physics; Astronomy; University of Kansas; (2); Radiocarbon Dating Lab; University of Helsinki)

arXiv:1306.0815·physics.gen-ph·June 5, 2013

The 5D to 4D projection model applied as a Lepton to Galaxy Creation model

Kai-Wai Wong (1), Gisela A. M. Dreschhoff (1), H\"ogne Jungner (2), ((1) Department of Physics, Astronomy, University of Kansas, (2), Radiocarbon Dating Lab, University of Helsinki)

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TL;DR

This paper introduces a geometric 5D to 4D projection model that explains the formation of leptons and galaxies, linking quantum states with cosmic structures through a novel Lorentz manifold framework.

Contribution

It presents a new geometric model connecting 5D to 4D projections with implications for particle physics and cosmology, including galaxy creation.

Findings

01

Derives a 3D doughnut structure for Lorentz space-time.

02

Shows confinement of leptons in the quantum state.

03

Proposes a model for galaxy formation based on the projection.

Abstract

The 5D to 4D projection is presented in a simple geometry giving the Perelman Theorem, resulting in a 3D doughnut structure for the space manifold of the Lorentz space-time. It is shown that in the lowest quantum state, this Lorentz manifold confines and gives the de Broglie leptons from the massless 5D e-trinos. On the scale of the universe, it allows for a model for the creation of galaxies.

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Taxonomy

TopicsParticle physics theoretical and experimental studies · Cosmology and Gravitation Theories · Black Holes and Theoretical Physics