Planetary science
Site news
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The possibility of detecting a pocket of habitable water under the surface of Europa is just one of the reasons to be excited about NASA's mission, says Dustin Schroeder, an expert in using radar to assess glaciers and a member of Clipper's science team.
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A second-year PhD student in Earth and planetary sciences and bestselling science fiction author, Ashing-Giwa never misses a chance to blend lab and lit.
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A Stanford dune expert discusses watching desert-based movies from the perspective of a geoscientist, the realities of otherworldly dunes, and what his research can tell us about the ancient environment of Earth and other planets.
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Stanford study on microbes in extremely salty water suggests life may survive conditions previously thought to be uninhabitable. The research widens the possibilities for where life may be found throughout our solar system and shows how changes in salinity may affect life in aquatic habitats on Earth.
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Researchers have analyzed the shifting patterns of entire dune fields on Earth and Mars, as seen from orbit, and found they are a direct signature of recent environmental change. This new tool can be applied anywhere with dunes, such as Mars, Titan, and Venus.
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An international team of researchers has used NASA’s James Webb Space Telescope to calculate the amount of heat energy coming from the rocky exoplanet TRAPPIST-1 c. The result suggests that the planet’s atmosphere – if it exists at all – is extremely thin.
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Stanford planetary scientists have uncovered how sandy waves form on our sister planet at a scale that previously seemed incompatible with the physics of how ripples and dunes arise on Earth. (Source: Stanford News)
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The technique helps us understand ice sheets right here on Earth -- and whether there could be life far, far beyond. (Source: Stanford Engineering)
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A new hypothesis reveals that a global sedimentary cycle driven by seasons could explain the formation of landscapes on Saturn’s moon Titan. The research shows the alien world may be more Earth-like than previously thought.
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Ice-penetrating radar data from Greenland suggests that shallow water pockets may be common within Europa’s ice shell, increasing the potential habitability of the Jovian moon’s ice shell.
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New research shows how the impact that created the Moon’s South Pole–Aitken basin is linked to the stark contrast in composition and appearance between the two sides of the Moon.
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Researchers mimicked these extreme impacts in the lab and discovered new details about how they transform minerals in Earth’s crust. (Source: SLAC National Accelerator Laboratory)
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New modeling suggests giant, cool blobs of titanium-rich rocks sinking down to the ancient Moon’s hot core could have produced intermittently strong magnetic fields for the first billion years of the Moon’s history.
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A new model of ancient asteroids bombarding the Earth has been applied to understand how oxygen levels in Earth’s atmosphere evolved.
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A new method for seeing through ice sheets using radio signals from the sun could enable cheap, low-power and widespread monitoring of ice sheet evolution and contribution to sea-level rise.
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Much about Earth’s closest planetary neighbor, Venus, remains a mystery. Algorithms and techniques pioneered by Stanford Professor Howard Zebker’s research group will help to guide a search for active volcanoes and tectonic plate movements as part of a recently announced NASA mission to Venus.
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The gases released from meteorite samples heated in a high-temperature furnace can tell scientists about the initial composition of the atmospheres of rocky exoplanets.
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New research suggests that hot, rocky planets in other solar systems could form and keep thick atmospheres full of water.
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A new theory that helps explain geological and chemical processes on Mars also suggests the martian environment continues to be dynamic, with implications for both astrobiology and future human exploration of the Red Planet.
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A new model shows how brine on Jupiter’s moon Europa can migrate within the icy shell to form pockets of salty water that erupt to the surface when freezing. The findings, which are important for the upcoming Europa Clipper mission, may explain cryovolcanic eruptions across icy bodies in the solar system.
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According to Stanford University Mars experts, NASA’s latest Martian rover will drive a wave of exciting discoveries when it lands on the Red Planet – and possibly alter scientists’ understanding of the blue one it launches from.
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The Chicxulub impact crater that is linked to the extinction of the dinosaurs hosted a hydrothermal system that chemically and mineralogically modified more than 100,000 cubic kilometers of Earth’s crust, according to new research.
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Learning how liquid silicates behave at extreme temperatures and pressures has been a longstanding challenge in the geosciences.
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The former director of NASA Ames discusses how the advent of new activities and players in the exploration and use of space is raising fresh challenges and concerns about planetary protection.