Difference between revisions of "On Weyl's Extension of the Relativity Principle as a Tool to Unify Fundamental Interactions"
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− | The principle of democracy between reference systems which was formulated by Galileo, modified by the special relativity theory and generalised by general relativity could be extended and applied also to reference scales. Basing on this Weyl's idea we review a model that unifies fundamental interactions of elementary particles described by the Standard Model and gravity. Local conformal symmetry is a pivotal feature of this model. The most important phenomenological consequence of this approach is the absence of the dynamical scalar field in the predicted particle spectrum.[[Category:Scientific Paper]] | + | The principle of democracy between reference systems which was formulated by Galileo, modified by the special relativity theory and generalised by general relativity could be extended and applied also to reference scales. Basing on this Weyl's idea we review a model that unifies fundamental interactions of elementary particles described by the Standard Model and gravity. Local conformal symmetry is a pivotal feature of this model. The most important phenomenological consequence of this approach is the absence of the dynamical scalar field in the predicted particle spectrum. |
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+ | [[Category:Scientific Paper|weyl 's extension relativity principle tool unify fundamental interactions]] | ||
[[Category:Gravity]] | [[Category:Gravity]] | ||
[[Category:Relativity]] | [[Category:Relativity]] |
Revision as of 10:51, 1 January 2017
Scientific Paper | |
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Title | On Weyl\'s Extension of the Relativity Principle as a Tool to Unify Fundamental Interactions |
Author(s) | Marek Pawlowski |
Keywords | Weyl's idea, relativity principle, unify fundamental interactions, gravity |
Published | 1997 |
Journal | None |
Pages | 247-255 |
Abstract
The principle of democracy between reference systems which was formulated by Galileo, modified by the special relativity theory and generalised by general relativity could be extended and applied also to reference scales. Basing on this Weyl's idea we review a model that unifies fundamental interactions of elementary particles described by the Standard Model and gravity. Local conformal symmetry is a pivotal feature of this model. The most important phenomenological consequence of this approach is the absence of the dynamical scalar field in the predicted particle spectrum.