Difference between revisions of "A Sketch for a Quantum Theory of Gravity: Rest Mass Induced by Graviton Motion"
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Sommerfeld?s numerical quantum-electronic structure for the energies of the states of the hydrogen-like atoms is shown to present a scheme that is able to express a unique ''observer'' point of view. The perspective of this observer is essentially how he, if ''fixed'' on a trapped electron, would see his and his electron's state of containment within the full atomic quantum state. This particular internal view of a quantum state is then shown to have strong analytic powers in the numerically very different scale of gravitation theory. This unexpected analogy becomes possible when it is recognized that a basic part of gravitation theory can be expressed in terms completely analogous to the quantum relativistic electromagnetic structure involved in Sommerfeld's formula for quantum-state energy. | Sommerfeld?s numerical quantum-electronic structure for the energies of the states of the hydrogen-like atoms is shown to present a scheme that is able to express a unique ''observer'' point of view. The perspective of this observer is essentially how he, if ''fixed'' on a trapped electron, would see his and his electron's state of containment within the full atomic quantum state. This particular internal view of a quantum state is then shown to have strong analytic powers in the numerically very different scale of gravitation theory. This unexpected analogy becomes possible when it is recognized that a basic part of gravitation theory can be expressed in terms completely analogous to the quantum relativistic electromagnetic structure involved in Sommerfeld's formula for quantum-state energy. | ||
− | [[Category:Scientific Paper]] | + | [[Category:Scientific Paper|sketch quantum theory gravity rest mass induced graviton motion]] |
[[Category:Relativity]] | [[Category:Relativity]] |
Revision as of 10:03, 1 January 2017
Scientific Paper | |
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Title | A Sketch for a Quantum Theory of Gravity: Rest Mass Induced by Graviton Motion |
Author(s) | James G Gilson |
Keywords | {{{keywords}}} |
Published | 2006 |
Journal | Galilean Electrodynamics |
Volume | 17 |
Number | 3 |
Pages | 43-48 |
Abstract
Sommerfeld?s numerical quantum-electronic structure for the energies of the states of the hydrogen-like atoms is shown to present a scheme that is able to express a unique observer point of view. The perspective of this observer is essentially how he, if fixed on a trapped electron, would see his and his electron's state of containment within the full atomic quantum state. This particular internal view of a quantum state is then shown to have strong analytic powers in the numerically very different scale of gravitation theory. This unexpected analogy becomes possible when it is recognized that a basic part of gravitation theory can be expressed in terms completely analogous to the quantum relativistic electromagnetic structure involved in Sommerfeld's formula for quantum-state energy.