Astronomy and Astrophysics – Astrophysics
Scientific paper
2001-09-03
Astrophys.Space Sci. 284 (2003) 1159-1194
Astronomy and Astrophysics
Astrophysics
Latex, 48 pages (including 20 pages of text, 5 tables, 2 figures), additional separate postscript figures provided in case of
Scientific paper
10.1023/A:1023673227013
The perihelion advance of the orbit of Mercury has long been one of the observational cornerstones for testing General Relativity (G.R.). The main goal of this paper is to discuss how, presently, observational and theoretical constraints may challenge Einstein's theory of gravitation characterized by beta=gamma=1. To achieve this purpose, we will first recall the experimental constraints upon the Eddington-Robertson parameters gamma, beta and the observational bounds for the perihelion advance of Mercury. A second point will address the values given, up to now, to the solar quadrupole moment by several authors. Then, we will briefly comment why we use a recent theoretical determination of the solar quadrupole moment, J2=(2.0 +/- 0.4) 10^{-7}, which takes into account both surfacic and internal differential rotation, in order to compute the solar contribution to Mercury's perihelion advance. Further on, combining bounds on gamma and J2 contributions, and taking into account the observational data range for the perihelion shift, we will be able to give a range of values for beta. Alternatively, taking into account the observed value of perihelion shift, one can deduce a dynamical estimation of J2 in the setting of G.R. This point is important as it provides a solar model independent estimation that can be confronted with other determinations of J2 based upon solar theory and solar observations (oscillation data, oblateness...). Finally, a glimpse at future satellite experiments will help us to understand how stronger constraints upon the parameter space (gamma, beta, J2) as well as a separation of the two contributions (J2, or purely relativistic) might be expected in the future.
Godier Stéphanie
Pireaux Sophie
Rozelot Jean-Pierre
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