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==Abstract==
==Abstract==


Classical or Bradley stellar aberration is correctly described by special relativity theory, which predicts also a second-order departure that has never been verified. We point out that the Very Long-Based Interferometry system appears now to offer sufficient resolution to allow confirmation of this truly "relativistic" aspect of starlight. The one-way nature of starlight propagation, in conjunction with the fact that most existing verifications of the special theory rest implicitly on two-way light-speed averaging, suggests the desirability of such measurements as a further independent verification of the theory.[[Category:Scientific Paper]]
Classical or Bradley stellar aberration is correctly described by special relativity theory, which predicts also a second-order departure that has never been verified. We point out that the Very Long-Based Interferometry system appears now to offer sufficient resolution to allow confirmation of this truly "relativistic" aspect of starlight. The one-way nature of starlight propagation, in conjunction with the fact that most existing verifications of the special theory rest implicitly on two-way light-speed averaging, suggests the desirability of such measurements as a further independent verification of the theory.


[[Category:Relativity]]
[[Category:Scientific Paper|testing relativity theory one-way light propagation]]
 
[[Category:Relativity|testing relativity theory one-way light propagation]]

Latest revision as of 22:58, 1 January 2017

Scientific Paper
TitleTesting Relativity Theory for One-way Light Propagation
Read in fullLink to paper
Author(s)Thomas E Phipps
KeywordsStellar aberration, special relativity, VLBI.
Published2005
JournalApeiron
Volume12
Number1
No. of pages8
Pages136-143

Read the full paper here

Abstract

Classical or Bradley stellar aberration is correctly described by special relativity theory, which predicts also a second-order departure that has never been verified. We point out that the Very Long-Based Interferometry system appears now to offer sufficient resolution to allow confirmation of this truly "relativistic" aspect of starlight. The one-way nature of starlight propagation, in conjunction with the fact that most existing verifications of the special theory rest implicitly on two-way light-speed averaging, suggests the desirability of such measurements as a further independent verification of the theory.