A look towards the future in the handling of space science mission geometry, Planet Space Sci, vol.150, pp.9-12, 2018. ,
Ancillary data services of NASA's navigation and ancillary information facility, Planet Space Sci, vol.44, issue.1, pp.65-70, 1996. ,
Magnetic field of Mars: Summary of results from the aerobraking and mapping orbits, J Geophys Res Planet, vol.106, issue.E10, pp.23403-23417, 2001. ,
The influence of space weather on ionospheric total electron content during the 23rd solar cycle, J Space Weather Space Clim, vol.3, 2013. ,
The international reference ionosphere today and in the future, J Geodesy, vol.85, issue.12, 2011. ,
The absorption and dissociative or ionizing effect of monochromatic radiation in an atmosphere on a rotating earth, 1931. ,
, Proc Phys Soc, vol.43, issue.1, p.26
Solar Radio Emission at 10.7 cm, pp.1947-1968, 1969. ,
, J R Astron Soc Can, vol.63, pp.125-132
Lander radioscience for obtaining the rotation and orientation of Mars, Planet Space Sci, vol.57, issue.8-9, pp.1050-1067, 2009. ,
URL : https://hal.archives-ouvertes.fr/hal-00372289
Revealing Mars' deep interior: Future geodesy missions using radio links between landers, orbiters, and the Earth, Planet Space Sci, vol.59, issue.10, pp.1069-1081, 2011. ,
The radio-science LaRa instrument onboard ExoMars 2020 to investigate the rotation and interior of Mars, Planet. Space Sci. Accepted for Publication, 2019. ,
MAVEN observations of the effects of crustal magnetic fields on electron density and temperature in the Martian dayside ionosphere, Geophys Res Lett, vol.44, issue.21, pp.10812-10821, 2017. ,
The rotation and interior structure experiment on the InSight mission to Mars, Space Sci Rev, vol.214, issue.5, p.100, 2018. ,
MARSIS derived enhanced ionospheric calibration data, vol.3, pp.1-10, 2008. ,
Radio wave propagation handbook for communication on and around Mars, 2002. ,
Ionospheric effects in global positioning system: Theory and applications, 1996. ,
New constraints on Mars rotation determined from radiometric tracking of the Opportunity Mars Exploration Rover, Icarus, vol.229, pp.340-347, 2014. ,
Total electron content in the Mars ionosphere: Temporal studies and dependence on solar EUV flux, J Geophys Res Space Phys, vol.115, 2010. ,
Statistical analysis of solar activity variations of total electron content derived at Jet Propulsion Laboratory from GPS observations, J Geophys Res Space Phys, vol.114, 2009. ,
Solar activity variations of the ionospheric peak electron density, J Geophys Res, vol.111, issue.8, 2006. ,
A new interhemispheric 16-moment model of the plasmasphere-ionosphere system: IPIM, J Geophys Res Space Phys, vol.120, issue.7, pp.5728-5745, 2015. ,
A new semiempirical model of the peak electron density of the Martian ionosphere, Geophys Res Lett, vol.40, pp.5361-5365, 1920. ,
Mars Initial Reference Ionosphere (MIRI) model: Updates and validations using MAVEN, MEX, and MRO data sets, J Geophys Res Space Phys, vol.123, issue.7, pp.5674-5683, 2018. ,
, J. Space Weather Space Clim, vol.9, p.36, 2019.
Diagnostic of the dayside ionosphere of Mars using the Total Electron Content measurement by the NEIGE/Netlander experiment: An assessment study, Planet Space Sci, vol.52, issue.7, pp.603-611, 2004. ,
The processing of electron density profiles from the Mars Express MARSIS topside sounder, Radio Sci, vol.48, issue.3, pp.197-207, 2013. ,
Correction of the ionospheric distortion on the MARSIS surface sounding echoes, Planet Space Sci, vol.56, issue.7, pp.917-926, 2008. ,
URL : https://hal.archives-ouvertes.fr/insu-00360440
MaRS: Mars express orbiter radio science, Mars Express: The Scientific Payload, ESA Publications Division 1240, pp.141-163, 2004. ,
The dayside ionospheres of Mars and Venus: Comparing a one-dimensional photochemical model with MaRS (Mars Express) and VeRa (Venus Express) observations, Icarus, vol.233, pp.66-82, 2014. ,
Retrieval of ionospheric profiles from the Mars Express MARSIS experiment data and comparison with radio occultation data, Geosci Instrum Meth Data Syst, vol.34, issue.23, pp.77-84, 2007. ,
NeMars: An empirical model of the Martian dayside ionosphere based on Mars Express MARSIS data, Icarus, vol.225, issue.1, pp.236-247, 2013. ,
Spatial, seasonal and solar cycle variations of the Martian total electron content (TEC): Is the TEC a good tracer for atmospheric cycles?, J Geophys Res Space Phys, vol.120, issue.3, pp.1746-1759, 2015. ,
Numerical evaluation of Chapman's grazing incidence integral ch (X, v), J Geophys Res, vol.77, issue.19, pp.3592-3597, 1972. ,
Generic mapping tools: improved version released, Eos Trans Am Geophys Union, vol.94, issue.45, pp.409-410, 2013. ,
Signatures of the Martian rotation parameters in the Doppler and range observables, Planet Space Sci, vol.144, pp.74-88, 2017. ,
Mars reconnaissance orbiter radio science gravity investigation, J Geophys Res, vol.112, issue.E5, 2007. ,
MoMo: a new empirical model of the Mars ionospheric total electron content based on Mars Express MARSIS data, J. Space Weather Space Clim, vol.9, p.36, 2019. ,
URL : https://hal.archives-ouvertes.fr/insu-02938684