Difference between revisions of "The First Results of the 3-D experiment for Investigating a Dependence of Spatial Light Dragging in a Rotating Medium on Speed of Rotation"
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| − | Invariance of electrodynamics equations relative to transformations of Lorentz or Mehler is based on non-invariant relations for partial infinitesimal differentials of space and time variables. It was shown before, that correct description for experiments of moving media optics is possible on the basis of solutions for the dispersion equation and with account dispersion in moving optical elements of an interferometer. A numerical Michelson-Morley - type experiment, in which an interferometer moves relative to an arbitrary inertial frame (IF), gives zero result when the interferometer is rotated, even if dispersion is taken into account...[[Category:Scientific Paper]] | + | Invariance of electrodynamics equations relative to transformations of Lorentz or Mehler is based on non-invariant relations for partial infinitesimal differentials of space and time variables. It was shown before, that correct description for experiments of moving media optics is possible on the basis of solutions for the dispersion equation and with account dispersion in moving optical elements of an interferometer. A numerical Michelson-Morley - type experiment, in which an interferometer moves relative to an arbitrary inertial frame (IF), gives zero result when the interferometer is rotated, even if dispersion is taken into account... |
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| + | [[Category:Scientific Paper|results -d experiment investigating dependence spatial light dragging rotating medium speed rotation]] | ||
[[Category:Relativity]] | [[Category:Relativity]] | ||
Revision as of 11:15, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | The First Results of the 3-D experiment for Investigating a Dependence of Spatial Light Dragging in a Rotating Medium on Speed of Rotation |
| Author(s) | Vladimir O Gladyshev |
| Keywords | {{{keywords}}} |
| Published | 2006 |
| Journal | None |
| No. of pages | 6 |
Abstract
Invariance of electrodynamics equations relative to transformations of Lorentz or Mehler is based on non-invariant relations for partial infinitesimal differentials of space and time variables. It was shown before, that correct description for experiments of moving media optics is possible on the basis of solutions for the dispersion equation and with account dispersion in moving optical elements of an interferometer. A numerical Michelson-Morley - type experiment, in which an interferometer moves relative to an arbitrary inertial frame (IF), gives zero result when the interferometer is rotated, even if dispersion is taken into account...
