https://doi.org/10.1140/epjp/i2018-11919-x
Regular Article
Sagnac delay in the Kerr-dS spacetime: Implications for Mach’s principle
1
Zel’dovich International Center for Astrophysics, Bashkir State Pedagogical University, 3A, October Revolution Street, 450000, RB, Ufa, Russia
2
Ural Federal University, 51 Lenin Str., 620000, Ekaterinburg, Russia
3
Department of Physics & Astronomy, Bashkir State University, 47A, Lenin Street, 453103, RB, Sterlitamak, Russia
* e-mail: izmailov.ramil@gmail.com
Received:
21
December
2017
Accepted:
17
January
2018
Published online:
12
February
2018
Relativistic twin paradox can have important implications for Mach’s principle. It has been recently argued that the behavior of the time asynchrony (different aging of twins) between two flying clocks along closed loops can be attributed to the existence of an absolute spacetime, which makes Mach’s principle unfeasible. In this paper, we shall revisit, and support, this argument from a different viewpoint using the Sagnac delay. This is possible since the above time asynchrony is known to be exactly the same as the Sagnac delay between two circumnavigating light rays re-uniting at the orbiting source/receiver. We shall calculate the effect of mass M and cosmological constant on the delay in the general case of Kerr-de Sitter spacetime. It follows that, in the independent limits , spin and , while the Kerr-dS metric reduces to Minkowski metric, the clocks need not tick in consonance since there will still appear a non-zero observable Sagnac delay. While we do not measure spacetime itself, we do measure the Sagnac effect, which signifies an absolute substantive Minkowski spacetime instead of a void. We shall demonstrate a completely different limiting behavior of Sagnac delay, heretofore unknown, between the case of non-geodesic and geodesic source/observer motion.
© Società Italiana di Fisica and Springer-Verlag GmbH Germany, part of Springer Nature, 2018