Physics
Scientific paper
Dec 1997
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1997phrva..56.4405w&link_type=abstract
Physical Review A (Atomic, Molecular, and Optical Physics), Volume 56, Issue 6, December 1997, pp.4405-4409
Physics
22
Special Relativity, Determination Of Fundamental Constants, Time And Frequency, Artificial Earth Satellites
Scientific paper
A test of special relativity has been carried out using data of clock comparisons between hydrogen maser clocks on the ground and cesium and rubidium clocks on board 25 global positioning system (GPS) satellites. The clocks were compared via carrier phase measurements of the GPS signal using geodetic receivers at a number of stations of the International GPS Service for Geodynamics (IGS) spread worldwide. In special relativity, synchronization of distant clocks by slow clock transport and by Einstein synchrony (using the transmission of light signals) is equivalent in any inertial frame. A violation of this equivalence can be modeled using the parameter δc/c, where c is the round-trip speed of light (c=299 792 458 m/s in vacuum) and δc is the deviation from c of the observed velocity of a light signal traveling one way along a particular spatial direction with the measuring clocks synchronized using slow clock transport. In special relativity δc/c=0. Experiments can set a limit on the value of δc/c along a particular spatial direction (henceforth referred to as ``direction of δc''). Within this model our experiment is sensitive to a possible violation of special relativity in any direction of δc, and on a nonlaboratory scale (baselines >=20 000 km). The results presented here set an upper limit on the value of δc/c<5×10-9 when considering all spatial directions of δc and δc/c<2×10-9 for the component in the equatorial plane.
Petit Gerard
Wolf Peter
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