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Exploring Planetary Science: Dynamics, Spectroscopy, and Remote Sensing Observations

This comprehensive overview of planetary science encompasses various fields, focusing on dynamics, spectral analysis, and remote sensing observations. Highlighting efforts from organizations such as NASA and ESA, it explores tools like the Hubble and APEX telescopes. Key topics include atmospheric studies of Venus and Mars, dynamics of Jupiter's red spot, dust spectroscopy, and aurora borealis imaging. The research involves numerical simulations, laboratory experiments, and the study of small bodies in the solar system, providing insights into planetary origins and evolution.

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Exploring Planetary Science: Dynamics, Spectroscopy, and Remote Sensing Observations

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  1. Data in Planetary Science FIELDS TYPES ORIGINS Image Spectrum Dynamicspectrum Spectral cube Volume Profile Movie Cube Time series Catalog Spatial vector Earthbasedobservations Artistview, Terrestrialmagnetosphere. ESA. APEX Telescope. ES0. Hubble Telescope. ESA. Experiments Spectroscopy Plasmas Pan-STARRS telescope on Maui. NASA Remotesensing Absorption/ Reflectance/Emission Space observations Aurora borealis. NASA. Imaging Magneticfield Solar System Orrery by Asa Smith, 1850 Dustspectroscopy Planetarydynamics and extra-terrestrialmatter Particlespectroscopy (mass, energy, electric charge, velocity…) CASSINI. NASA Chromatography Venus Express. ESA. Gravityfield Altimetry Venus Atmosphere. NASA/NSSDC Mars Express. ESA. Referenceframes Titan Atmosphere. NASA Numericalsimulations Atmospheres • Planetreference frame • Heliocentricreference frame • Earthreference frame Jupiter’s red spot. NASA Coordinatesystems Mars. NASA. Venus. DLR. Interiors and surfaces • Cartesian • Spherical • 2D, 3D Jupiter. NASA. Mars. German Aerospace Centre (DLR). Laboratoryexperiments Asteroid Lutetia. ESA. Timescales Small bodies, dust and TNO’s PLASMA experiment. LISA/IPSL • ~1s to ~1h • Diurnal • Seasonal • Secular Comet West. OHP, FRANCE. LIPhy Zodiacal light, Chile. ESO.

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