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New Insight in Sounding the Solar Interior

Published online by Cambridge University Press:  13 May 2016

S. Godier
Affiliation:
OCA-CERGA, Av. Copernic 06130 GRASSE (FRANCE)
J.-P. Rozelot
Affiliation:
OCA-CERGA, Av. Copernic 06130 GRASSE (FRANCE)

Abstract

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The solar limb is potentially a sharp spatial reference with which we can detect the effects of solar oscillations (both pression and gravitation modes), the quadrupole moment -and higher moments if any-, the true shape of the helioid (the oblateness at the first order), and changes in the solar radius. It is shown in this paper, that the accurate determination of the successive differential gravitational moments are useful to probe the solar interior. We emphasize the main reasons, mainly the accurate determination of the planetary orbits and the adjustement of the Eddington-Robertson coefficient of the PPN gravitational theory. Moreover, both the shape and the radius measurements of the Sun help to determine the solar luminosity, as empirical models of total irradiance (solely based on magnetic effects) can not explain all aspects of irradiance changes. A complete theory is still pending. The space mission Picard, currently scheduled by the end of 2004 and currently under a manufacturing process, will lead to validate our differential theory.

Type
Session I: Global Structure and Evolution of the Solar Interior
Copyright
Copyright © Astronomical Society of the Pacific 2001 

References

Damé, L., Cugnet, D., Joukoff, A., Rozelot, J.P. et al., 2000, Euroconference on the Solar Cycle and Terrestrial Climate, September 2000, Tenerife (S), to be published.Google Scholar
Fröhlich, C. & Lean, J. 1998, in IAU Symp. 185, New Eyes to See inside the Sun and Stars, ed. Deubner, F. L., Christensen-Dalsgaard, J. & Kurtz, D., 89.Google Scholar
Godier, S. & Rozelot, J. P. 1999, Astron. Astrophys., 350, 310.Google Scholar
Godier, S. & Rozelot, J. P. 2000, Astron. Astrophys., 355, 365.Google Scholar
Gonzales-Hernandez, I. et al. 1999, ApJ, 510, L153.CrossRefGoogle Scholar
Kosovichev, A. G. 1999, Amer. Geophys. Union, 83.Google Scholar
Laclare, F. et al. 1996, Solar Physics, 166, 211.CrossRefGoogle Scholar
Pap, J., Rozelot, J.P., Godier, S. and Varadi, F., 2001, Astron. Astrophys., submitted.Google Scholar