User menu

Can a solid inner core of Mars be detected from observations of polar motion and nutation of Mars?

Bibliographic reference Dehant, Véronique ; et. al. Can a solid inner core of Mars be detected from observations of polar motion and nutation of Mars?. In: Journal of Geophysical Research, Vol. 108, no.E12, p. 5127 (2003)
Permanent URL
  1. Anderson Orson L., The three-dimensional phase diagram of iron, Earth's Core: Dynamics, Structure, Rotation (2003) ISBN:0875905331 p.83-103, 10.1029/gd031p0083
  2. Barriot J.-P., Dehant V., Folkner W., Cerisier J.-C., Ribes A., Benoist J., Van Hoolst T., Defraigne P., Warnant R., Preston R.A., Romans L., Wu S., Wernik A.W., The netlander ionosphere and geodesy experiment, 10.1016/s0273-1177(01)00295-2
  3. Defraigne P., de Viron O., Dehant V., Van Hoolst T., Hourdin F., Mars rotation variations induced by atmosphere and ice caps, 10.1029/1999je001227
  4. Defraigne P., Rivoldini A., Van Hoolst T., Dehant V., Mars nutation resonance due to Free Inner Core Nutation : MARS' NUTATION RESONANCE TO FICN, 10.1029/2003je002145
  5. Dehant V., Hinderer J., Legros H., Lefftz M., Analytical approach to the computation of the Earth, the outer core and the inner core rotational motions, 10.1016/0031-9201(93)90018-5
  6. Dehant Véronique, Defraigne Pascale, Van Hoolst Tim, Computation of Mars' transfer functions for nutations, tides and surface loading, 10.1016/s0031-9201(99)00108-9
  7. Dehant V., Hoolst T. Van, Defraigne P., 10.1023/a:1006716529241
  8. Folkner W. M., Interior Structure and Seasonal Mass Redistribution of Mars from Radio Tracking of Mars Pathfinder, 10.1126/science.278.5344.1749
  9. Gaetani Glenn A., Grove Timothy L., Partitioning of moderately siderophile elements among olivine, silicate melt, and sulfide melt: Constraints on core formation in the Earth and Mars, 10.1016/s0016-7037(97)00033-1
  10. Greff-Lefftz M., Core Rotational Dynamics and Geological Events, 10.1126/science.286.5445.1707
  11. Greff-Lefftz Marianne, Legros Hilaire, Dehant Veronique, Influence of the inner core viscosity on the rotational eigenmodes of the Earth, 10.1016/s0031-9201(00)00179-5
  12. Greff-Lefftz Marianne, Dehant Véronique, Legros Hilaire, Effects of inner core viscosity on gravity changes and spatial nutations induced by luni-solar tides, 10.1016/s0031-9201(01)00205-9
  13. Legros H., Hinderer J., Lefftz M., Dehant V., The influence of the solid inner core on gravity changes and spatial nutations induced by luni-solar tides and surface loading, 10.1016/0031-9201(93)90019-6
  14. Lognonné, Planet. Space Sci., 48, 1289 (1999)
  15. Longhi, Mars, 184 (1992)
  16. Mathews, J. Geophys. Res., 96, 8219 (1991)
  17. Mathews P. M., Herring T. A., Buffett B. A., Modeling of nutation and precession: New nutation series for nonrigid Earth and insights into the Earth's interior : NEW NUTATION SERIES AND THE EARTH'S INTERIOR, 10.1029/2001jb000390
  18. Poirier , J.-P. Introduction to the Physics of the Earth's Interior Cambridge Univ. Press New York 2000
  19. Sasao, Nutations and the Earth's Rotation, 165 (1980)
  20. Schubert, J. Geophys. Res., 95, 14,095 (1990)
  21. Schubert, Mars, 147 (1992)
  22. Sohl Frank, Spohn Tilman, The interior structure of Mars: Implications from SNC meteorites, 10.1029/96je03419
  23. Stenvenson, Science, 412, 214 (2001)
  24. Van den Acker Ellen, Influence of the seasonal winds and the CO2mass exchange between atmosphere and polar caps on Mars' rotation, 10.1029/2000je001539
  25. Van Hoolst T., Mercury's tides and interior structure, 10.1029/2003je002126
  26. Van Hoolst Tim, Dehant Véronique, Defraigne Pascale, Sensitivity of the Free Core Nutation and the Chandler Wobble to changes in the interior structure of Mars, 10.1016/s0031-9201(99)00109-0
  27. Van Hoolst Tim, Dehant Véronique, Defraigne Pascale, Chandler wobble and Free Core Nutation for Mars, 10.1016/s0032-0633(00)00099-4
  28. Van Hoolst, Icarus, 161, 281 (2003)
  29. Wahr, Geophys. J. R. Astron. Soc., 64, 705 (1981)
  30. Williams, J. Geophys. Res., 95, 19,299 (1990)
  31. Yoder C. F., Standish E. M., Martian precession and rotation from Viking lander range data, 10.1029/96je03642
  32. Yoder C. F., Fluid Core Size of Mars from Detection of the Solar Tide, 10.1126/science.1079645
  33. Yseboodt, Proceedings of the 36th ESLAB Symposium on Earth-like Planets and Moons, 145 (2002)
  34. Yseboodt, Proceedings of “Journées Systèmes de Référence Spatio-temporels 2001”, 157 (2002)
  35. Yseboodt Marie, Analytical modeling of the Doppler tracking between a lander and a Mars orbiter in terms of rotational dynamics, 10.1029/2003je002045