Difference between revisions of "The Complexified Aether"
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| − | Quantum electrodynamics suggests that the vacuum is a hyper-dimensional realm stressed with an extremely high potential known as the zero-point energy. While the virtual particle flux that comprises the zero-point energy seems to be amorphous for a given dimension, recent observations in crystallography suggest a geometry by which the dimensionality of the vacuum state enfolds. This geometry is presented here as a possible underlying mechanism for many phenomena, and as a possible approach for utilizing the zero-point energy.[[Category:Scientific Paper]] | + | Quantum electrodynamics suggests that the vacuum is a hyper-dimensional realm stressed with an extremely high potential known as the zero-point energy. While the virtual particle flux that comprises the zero-point energy seems to be amorphous for a given dimension, recent observations in crystallography suggest a geometry by which the dimensionality of the vacuum state enfolds. This geometry is presented here as a possible underlying mechanism for many phenomena, and as a possible approach for utilizing the zero-point energy. |
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| + | [[Category:Scientific Paper|complexified aether]] | ||
[[Category:Aether]] | [[Category:Aether]] | ||
Revision as of 11:11, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | The Complexified Aether |
| Author(s) | Erol O Torun |
| Keywords | aether, geometry, lattices, light, quasicrystals, vacuum |
| Published | 1993 |
| Journal | Electric Spacecraft Journal |
| Number | 8 |
| Pages | 22-27 |
Abstract
Quantum electrodynamics suggests that the vacuum is a hyper-dimensional realm stressed with an extremely high potential known as the zero-point energy. While the virtual particle flux that comprises the zero-point energy seems to be amorphous for a given dimension, recent observations in crystallography suggest a geometry by which the dimensionality of the vacuum state enfolds. This geometry is presented here as a possible underlying mechanism for many phenomena, and as a possible approach for utilizing the zero-point energy.
