Difference between revisions of "Light Propagation in an Expanding Universe"
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| − | In an expanding space, propagating light waves/particles participate in the expansion as originally proposed by W. H. McCrea (1962) and S. J. Prokhovnik (1963). The resulting mode of light propagation is expressed by a light "kinematic equation", which is a direct consequence of the cosmological principle and can be mathematically deduced from the Robertson-Walker metric. This leads to an important consequence, that the Minkowski light cone is transformed, in expanding space, to a curved space-time surface. Our new approach offers a more physically intelligible interpretation of the observational astronomy and theoretical cosmology and provides simple and direct answers to many abstract expositions of the conventional theory.[[Category:Scientific Paper]] | + | In an expanding space, propagating light waves/particles participate in the expansion as originally proposed by W. H. McCrea (1962) and S. J. Prokhovnik (1963). The resulting mode of light propagation is expressed by a light "kinematic equation", which is a direct consequence of the cosmological principle and can be mathematically deduced from the Robertson-Walker metric. This leads to an important consequence, that the Minkowski light cone is transformed, in expanding space, to a curved space-time surface. Our new approach offers a more physically intelligible interpretation of the observational astronomy and theoretical cosmology and provides simple and direct answers to many abstract expositions of the conventional theory. |
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| + | [[Category:Scientific Paper|light propagation expanding universe]] | ||
[[Category:Expansion Tectonics]] | [[Category:Expansion Tectonics]] | ||
Revision as of 10:37, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | Light Propagation in an Expanding Universe |
| Author(s) | Alexandros Paparodopoulos |
| Keywords | light propagation, expanding universe, light waves/particles, kinematic equation, cosmological principle, light cone, space-time surface |
| Published | 1994 |
| Journal | None |
| Pages | 99-104 |
Abstract
In an expanding space, propagating light waves/particles participate in the expansion as originally proposed by W. H. McCrea (1962) and S. J. Prokhovnik (1963). The resulting mode of light propagation is expressed by a light "kinematic equation", which is a direct consequence of the cosmological principle and can be mathematically deduced from the Robertson-Walker metric. This leads to an important consequence, that the Minkowski light cone is transformed, in expanding space, to a curved space-time surface. Our new approach offers a more physically intelligible interpretation of the observational astronomy and theoretical cosmology and provides simple and direct answers to many abstract expositions of the conventional theory.
