Abstract
Recent proposals for improved optical tests of special relativity have renewed interest in the interpretation of such tests. In this Letter we discuss the interpretation of modern realizations of the Michelson–Morley experiment in the context of a new model of electrodynamics featuring a vector-valued photon mass. This model is gauge invariant, unlike massive-photon theories based on the Proca equation, and it predicts anisotropy of both the speed of light and the electric field of a point charge. The latter leads to an orientation dependence of the length of solid bodies which must be accounted for when interpreting the results of a Michelson–Morley experiment. Using a simple model of ionic solids we show that, in principle, the effect of orientation dependent length can conspire to cancel the effect of an anisotropic speed of light in a Michelson–Morley experiment, thus, complicating the interpretation of the results.
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