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Planetary Science

Pluto
Astrobiology

Astrobiology

 

We study habitability and potential biosignatures across a wide variety of bodies in the Universe, ranging from early Earth to exoplanets.  Our work includes learning about the evolution of Earth’s atmosphere and oceans, biosignature preservation in the geologic record, astronomical life detection techniques, the history of habitable environments across the Solar System, and the relationship between planetary habitability and stellar properties.
Faculty: Borlina, Horgan, Olson, Pearce

Planetary Atmospheres and Climate

Planetary Atmospheres and Climate

 

We use laboratory experiments and computer simulations to study cloud formation and atmospheric evolution on a range of planets.  We also analyze geological records in order to understand what they teach us about climate history on Earth, Mars, and beyond.
Faculty: A. Johnson, Olson, Pearce, Tremblay

Planetary Geophysics

Planetary Geophysics

 

We study the interiors, geodynamics, tectonics, thermal evolution, and impact processes across the solid bodies of the Solar System using data returned from spacecraft missions and sophisticated numerical models.
Faculty: Borlina, Bramson, Freed, B. Johnson, K. Prissel, T. Prissel, Sori

Planetary Surfaces

Planetary Surfaces

 

We study the mineralogical, morphological, and tectonic evolution of planetary surfaces using remote sensing analysis, field and laboratory analog studies, and computational methods to understand the processes and environments that shape the landscapes of planets.
Faculty: Bramson, Horgan, B. Johnson, Minton, K. Prissel, T. Prissel, Sori, Thompson, Tremblay

Sample Analysis

Sample Analysis

 

We use state-of-the-art laboratory experiments to analyze extraterrestrial samples, including meteorites, Moon rocks returned by Apollo astronauts, and materials collected from asteroids.  Our techniques allow us to study the physical and chemical evolution of the surface of the Earth and other planets and moons.
Faculty: Borlina, K. Prissel, T. Prissel, Thompson, Tremblay

Solar System Dynamics

Solar System Dynamics

 

We use observations of populations of Solar System objects and their orbits, combined with computer simulations, to study the formation and evolution of planetary and satellite systems to understand how our Solar System and others developed through time.
Faculty: Minton

Spacecraft missions

Spacecraft Missions

 

We have been and are continuing to be involved with NASA and international spacecraft missions, including MESSENGER, Hayabusa2, OSIRIS-REx, GRAIL, the Lunar Reconnaissance Orbiter, the Mars Reconnaissance Orbiter, the Curiosity and Perseverance Mars rovers, Mars Odyssey, Dawn, and more.  We are also active in planning the next generation of robotic spacecraft missions, human exploration, and astronomical observatories.
Faculty: All

Planetary Science News

Investigating Origins of CO2 Ice on Uranian Moons
09-03-2024
EOS EDITOR'S HIGHLIGHT — A new study investigates the role of volatile migration in the unique Uranian thermal environment. The study's lead author is Stephanie Menten, PhD candidate with Purdue EAPS, et al. test theories of CO2 origin on Ariel by modeling the transport and sublimation of CO2 across the surface. The high obliquity of the Uranus system means that the subsolar point on these moons varies between near the south pole and near the north pole on seasonal timescales (one Uranus year is about 84 Earth years). The authors find that CO2 ice can migrate on timescales of just a few Uranian years, and that it will tend to migrate towards Ariel’s equator and away from the poles, uniformly in longitude.

From lab to lunar and beyond: Check out some of the innovative space research from Purdue University
08-26-2024
PURDUE NEWS — Space scientists are the boots on the ground of extraterrestrial exploration, and Purdue’s researchers rank among the most elite. This collection of impactful news from Purdue University’s space research labs represents the wonder of outer space’s limitless potential. Included in this roundup is research by EAPS faculty Ali Bramson, Alexandria Johnson, Brandon Johnson and Briony Horgan.

Perseverance rover is making a steep ascent to reach unexplored Martian territory
08-26-2024
CNN — The Perseverance rover has begun a long climb up the steep rim of Jezero Crater on a quest to discover some of the most ancient rocks on Mars — and the potential for environments that may have once hosted life on the red planet. “We should be able to access and sample some of the oldest rocks on Mars in the crater rim,” said Briony Horgan, co-investigator on the Perseverance rover mission and professor of planetary science at Purdue University.

Ocean Salinity Affects Earth’s Climate. How About on Exoplanets?
08-19-2024
UNIVERSE TODAY — There’s a link between Earth’s ocean salinity and its climate. Salinity can have a dramatic effect on the climate of any Earth-like planet orbiting a Sun-like star. But how would ocean salinity affect exoplanets that orbit stars which are different from our Sun? That’s the question behind new research titled “Climatic Effects of Ocean Salinity on M Dwarf Exoplanets.” The lead author is Kyle Batra from the Department of Earth, Atmospheric, and Planetary Science at Purdue University. Batra is also a member of the NASA Network for Ocean Worlds Exo-oceanography Team.

NASA’s Perseverance rover may have just found what it was looking for on Mars
07-29-2024
CNN — The NASA Perseverance rover may have found a pivotal clue that’s central to its mission on Mars: geological evidence that could suggest life existed on the red planet billions of years ago. “We’re absolutely thrilled to have this sample in the bag!” said Briony Horgan, co-investigator on the Perseverance rover mission and professor of planetary science at Purdue University.

The Thick Ice of Europa: A Barrier or a Gateway to Alien Life?
07-29-2024
SCITECH DAILY — Europa is a rocky moon, home to saltwater oceans twice the volume of Earth’s, encased in a shell of ice. Scientists have long thought that Europa may be one of the best places in our solar system to look for nonterrestrial life. A team of planetary science experts including Brandon Johnson, an associate professor, and Shigeru Wakita, a research scientist, in the Department of Earth, Atmospheric, and Planetary Sciences in Purdue University’s College of Science, announced in a new paper published in Science Advances that Europa’s ice shell is at least 20 kilometers thick.

Accidentally exposed yellowish-green crystals reveal ‘mind-blowing’ finding on Mars, scientists say
07-22-2024
CNN — The Curiosity rover has made its most unusual find to date on Mars: rocks made of pure sulfur. And it all began when the 1-ton rover happened to drive over a rock and crack it open, revealing yellowish-green crystals never spotted before on the red planet. “My jaw dropped when I saw the image of the sulfur,” said Briony Horgan, co-investigator on the Perseverance rover mission and professor of planetary science at Purdue University in West Lafayette, Indiana. “Pure elemental sulfur is a very weird finding because on Earth we mostly find it in places like hydrothermal vents. Think Yellowstone! So it’s a big mystery to me as to how this rock formed in Mt. Sharp.”

Margaret Deahn awarded Zonta International Amelia Earhart Fellowship
07-01-2024
Margaret Deahn says she could have never imagined as a child that she would grow up to study rocks on other planets. But now she has three internships at NASA’s Jet Propulsion Lab (JPL) and an education in planetary sciences with Purdue University on her growing list of accomplishments. Now she can add Amelia Earhart Fellow to that list. She is one of only 30 scientists worldwide receiving a 2024 Zonta International Amelia Earhart Fellowship. Deahn is a PhD student with Purdue University’s Department of Earth, Atmospheric, and Planetary Sciences (EAPS).

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