Bât. Lamarck - 7e étage - Bureau 716 - 35 rue Hélène Brion 75205 PARIS CEDEX 13
Professeure des Universités, UFR de Physique Co-Investigator of the CIRS-Cassini spectrometer Lead the Planetology and Space Sciences Team.
I am focusing my research activities on characterizing planetary surfaces or rings by infrared or visible remote sensing to determine their multi-scale structure or composition. Radiative and heat transfer models are developed and coupled with DEMs to analysis multi-scale and multi-instrumental data. Among questions of interest are: - The structure of icy regoliths exposed to space weathering at cm to m depths - The low thermal inertia of rocky and icy regoliths and how it relates to their structure - The thickness (and mass) of Saturn’s B ring - Multiscale properties of Saturn’s rings, of terrestrial terrains
Missions : Cassini , base de données: LRO-Diviner, DAWN-Vir, Earth observation in thermal infrared
Team Collaborators : A.Lucas, S. Jacquemoud and S. Rodriguez
International Collaborators : L. Spilker (JPL), S. Pilorz (NASA Ames), J. Pearl (GSFC), C. Howett (SWRI), N. Altobelli (ESAC), C. Michaut (ENS Lyon)
Tiscarino, M. et al. (2019) Close-range remote sensing of Saturn’s rings during Cassini’s ring grazing orbits and grand finale. Science, Vol. 364, No 6445, eaau1017.
Labarre, S., S. Jacquemoud, C. Ferrari and the Carolina Team (2019). Retrieving soil surface roughness with the Hapke model: confrontation to the ground truth. Remote Sensing of Environment, 225, 1-15
Ferrari, C. (2018) Thermal properties of icy surfaces in the outer solar system. Space Science Reviews, 214,111
Spilker, L., Ferrari, C., Altobelli, N., Pilorz, S. and Morishima, R. (2018) Thermal properties of rings and ring particles, in “Planetary Ring Systems: Properties, Structure, and Evolution." Cambridge University Press Planetary Science Series. M. Tiscareno and C. Murray, Eds.
Jennings, D., Flasar, M.F., Kunde, V.G. and the CIRS Team (2017). The Composite infrared spectrometer (CIRS) on Cassini, Applied Optics, 56(18) 5274-529
Labarre, S., C. Ferrari, S. Jacquemoud (2017). Surface roughness retrieval by inversion of the Hapke model: a multiscale approach. Icarus, 290, 63-80
Ferrari, C. and A. Lucas (2016). Low thermal Inertia of Icy Planetary Surfaces: Evidence for amorphous ice? A & A, 588, A133.
Ferrari, C., Reffet, E. (2013). The dark side of Saturn’s B ring: seasons as clues to its structure. Icarus, 223, 28–39
Ferrari, C., Brooks, S., Edgington, S., Leyrat, C., Pilorz, S., Spilker, L. (2009). Structure of self-gravity wakes in Saturn’s A ring as measured by Cassini CIRS. Icarus, 199, 145–154
Ferrari, C. and C. Leyrat (2006) Thermal emission of spinning particles ring particles: the standard model. Astron. Astroph., 447, 745-760.
Flasar F. M. et al. (2005) Temperatures, winds and composition in the Saturnian system. Science, 307,1247-1251
Flasar F. M. et al. (2004) Exploring the Saturn System in the Thermal Infrared: The Composite Infrared Spectrometer, Space Sci. Rev., 115, 169-297.
Spilker, L., Ferrari, C., Cuzzi, J., Showalter, M., Pearl, J. and B. Wallis (2003) Saturn's rings in thermal infrared, in Surfaces and atmospheres of the outer planets, their satellites and ring systems, Review paper, PSS special issue of the XXIIIth General Assembly of the EGS, Planet.Space.Sci., 51, 929-935.
Remote Sensing of Planetary Surfaces, of Earth in the thermal infrared
Digital communications, Random Signal Processing, Systems and Filters, Image Processing