Add to ORKGPresent understanding of planetary composition is based primarily on remotely-sensed data, and in particular upon ultraviolet, visible, and infrared spectroscopy. Spectra acquired by telescopic and spacecraft instruments are compared to laboratory measurements of pure materials in order to identify surface components based on characteristic absorption features. Cryogenic spectral measurements are necessary for the study of worlds beyond the Earth's orbit. While some materials exhibit only small spectral changes as a function of temperature, many others are strongly temperature-dependent. For example, hydrated salts exhibit different spectral behavior under conditions appropriate to Europa than at terrestrial temperatures. The icy satellites...
International audienceContext. Laboratory experiments provide a great support to astronomical studie...
Remote-sensing infrared spectroscopy is the principal field of investigation for planetary surfaces ...
International audienceThe comparison between laboratory experiments and astronomical observations is...
Icy planets, in particular Jupiter’s moons, have attracted the scientific investigation due to the l...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Earth and Planetary Sciences, 1980.M...
The reflectance spectra of powdered samples of selected minerals, meteorites, lunar materials and fr...
International audienceWe measure the visible and near-infrared reflectance of icy analogues of the M...
International audienceIt has been proposed that ammonium-bearing minerals are present in a varying a...
The in-situ exploration of the Jupiter’s moon Ganymede, composed of silicate rock and water ice, wil...
[1] Reflectance spectroscopy of outer solar system bodies provides direct observations for interpret...
Spectroscopic data acquired in the laboratory provide the interpretive foundation upon which composi...
Over the course of more than 3 decades, the Institute for Planetary Research of the German Aerospa...
International audienceMuch of our knowledge of planetary surface composition is derived from remote ...
Ices in the atmospheres and on the surfaces of planets are thought to play important roles in the ev...
International audienceContext. Laboratory experiments provide a great support to astronomical studie...
Remote-sensing infrared spectroscopy is the principal field of investigation for planetary surfaces ...
International audienceThe comparison between laboratory experiments and astronomical observations is...
Icy planets, in particular Jupiter’s moons, have attracted the scientific investigation due to the l...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Earth and Planetary Sciences, 1980.M...
The reflectance spectra of powdered samples of selected minerals, meteorites, lunar materials and fr...
International audienceWe measure the visible and near-infrared reflectance of icy analogues of the M...
International audienceIt has been proposed that ammonium-bearing minerals are present in a varying a...
The in-situ exploration of the Jupiter’s moon Ganymede, composed of silicate rock and water ice, wil...
[1] Reflectance spectroscopy of outer solar system bodies provides direct observations for interpret...
Spectroscopic data acquired in the laboratory provide the interpretive foundation upon which composi...
Over the course of more than 3 decades, the Institute for Planetary Research of the German Aerospa...
International audienceMuch of our knowledge of planetary surface composition is derived from remote ...
Ices in the atmospheres and on the surfaces of planets are thought to play important roles in the ev...
International audienceContext. Laboratory experiments provide a great support to astronomical studie...
Remote-sensing infrared spectroscopy is the principal field of investigation for planetary surfaces ...
International audienceThe comparison between laboratory experiments and astronomical observations is...