The VAK of vacuum fluctuation: Spontaneous self-organization and complexity theory interpretation of high energy particle physics and the mass spectrum (Q1433748)
From MaRDI portal
 | This is the item page for this Wikibase entity, intended for internal use and editing purposes. Please use this page instead for the normal view: The VAK of vacuum fluctuation: Spontaneous self-organization and complexity theory interpretation of high energy particle physics and the mass spectrum |
scientific article; zbMATH DE number 2077415
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | The VAK of vacuum fluctuation: Spontaneous self-organization and complexity theory interpretation of high energy particle physics and the mass spectrum |
scientific article; zbMATH DE number 2077415 |
Statements
The VAK of vacuum fluctuation: Spontaneous self-organization and complexity theory interpretation of high energy particle physics and the mass spectrum (English)
0 references
1 July 2004
0 references
The author presents a summary of the concepts and results of the \(E\)-infinity theory. This theory assumes that quantum space-time is an infinite-dimensional hierarchical Cantor set and that the stationary quantum states are given by the vague of Kolmogorov (VAK). The limit set of the VAK is intimately related to the limit set of the Möbius-Klein transformation of the space and may be described as a chaotic dynamical state with a highly nonlinear wild topological structure ramifying at a Cantor set with a Hausdorff dimension related to the golden mean.
0 references
\(E\)-infinity theory
0 references
Hausdorff dimension
0 references
stationary set
0 references
0 references
0 references
