English

Testing special relativity with geodetic VLBI

Instrumentation and Methods for Astrophysics 2018-10-10 v3

Abstract

Geodetic Very Long Baseline Interferometry (VLBI) measures the group delay in the barycentric reference frame. As the Earth is orbiting around the Solar system barycentre with the velocity VV of 30 km/s, VLBI proves to be a handy tool to detect the subtle effects of the special and general relativity theory with a magnitude of (V/c)2(V/\textrm{c})^2. The theoretical correction for the second order terms reaches up to 300~ps, and it is implemented in the geodetic VLBI group delay model. The total contribution of the second order terms splits into two effects - the variation of the Earth scale, and the deflection of the apparent position of the radio source. The Robertson-Mansouri-Sexl (RMS) generalization of the Lorenz transformation is used for many modern tests of the special relativity theory. We develop an alteration of the RMS formalism to probe the Lorenz invariance with the geodetic VLBI data. The kinematic approach implies three parameters (as a function of the moving reference frame velocity) and the standard Einstein synchronisation. A generalised relativistic model of geodetic VLBI data includes all three parameters that could be estimated. Though, since the modern laboratory Michelson-Morley and Kennedy-Thorndike experiments are more accurate than VLBI technique, the presented equations may be used to test the VLBI group delay model itself.

Keywords

Cite

@article{arxiv.1808.06769,
  title  = {Testing special relativity with geodetic VLBI},
  author = {Oleg Titov and Hana Krasna},
  journal= {arXiv preprint arXiv:1808.06769},
  year   = {2018}
}

Comments

Proceedings of the IAG 2017 Scientific Meeting, Kobe, Japan

R2 v1 2026-06-23T03:39:09.815Z