UC Planetary Science integrates geology, atmospheric science, and astrophysics. Students analyze spacecraft data, model exoplanet climates, and design rover instruments.
Spectral unmixing of Mars rover LIBS data to map hydrated minerals
GCM simulation of super-Earth atmospheric circulation under tidally locked rotation
Machine-learning crater-counting on lunar high-res imagery for age dating
Policy memo on planetary-protection standards for icy-moon missions
Thermal modeling of asteroid Bennu surface evolution and regolith migration
VR recreation of Titan’s methane lakes based on Cassini radar data
Isotopic analysis of meteorites constraining early solar-system chronology
3-D printed prototype of subsurface ice drill for Enceladus plume sampling
Network analysis of exoplanet discovery collaborations and instrument heritage
Augmented-reality outreach app overlaying real-time sky with planetary orbits
Radiative-transfer modeling of hazy exoplanet transmission spectra
Design of CubeSat mission measuring Venus cloud microphysics
Critical essay on ethical mining of near-Earth asteroids
Machine-learning classifier separating cometary vs. asteroidal meteors
Finite-element simulation of Europa ice shell flexure under tidal forces
Interactive timeline of Mars exploration rover engineering innovations
Public dataset curation of occultation events for citizen astronomers
Dust-plasma interaction experiment mimicking lunar horizon glow
Evaluation of in-situ resource utilization propellant options for Moon bases
Workshop teaching high-schoolers photometry with backyard telescopes
Unlock worlds beyond Earth with UC’s Planetary Science degree.
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