Arianna Gleason

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Arianna Elizabeth Gleason Holbrook [1] (born 1980) [2] is an American condensed matter physicist and planetary scientist who studies the behavior of matter in extreme conditions of pressure and temperature, as can be found at the cores of planets and stars, in planetary collisions, during certain kinds of explosion, and, on a smaller scale, in cavitation. [3] Gleason works at the SLAC National Accelerator Laboratory as a staff scientist and deputy division director in the Fundamental Physics Directorate, High Energy Density Science Division, and as an adjunct faculty member at Stanford University in its departments of geological science and mechanical engineering. [4]

Contents

Education and career

Gleason majored in geosciences at the University of Arizona, where she received her bachelor's degree in 2003. [5] After interning at the Lawrence Berkeley National Laboratory, [6] she went on to graduate study in Earth and planetary science at the University of California, Berkeley, where she completed her Ph.D. in 2010, [5] supervised by Raymond Jeanloz. [6]

She became a postdoctoral researcher at Stanford University in 2010, [5] working with Wendy Mao, [6] and continued as a Frederick Reines and Director’s Postdoctoral Fellow at the Los Alamos National Laboratory from 2014 to 2018. [4] She obtained a permanent position as a staff scientist at SLAC in 2018. [5]

Research

As a student in Arizona, Gleason worked in the Spacewatch project; [3] [5] her discoveries through the project included multiple minor planets as well as C/2003 A2 (Gleason), a comet. [5] As of 2022, it still had the most distant perihelion (the closest point in its orbit to the sun) of any known long-period comet. [7]

Her research on materials in extreme environments has included the unexpected discovery of weaknesses and non-uniform structure in the solid iron and nickel of Earth's inner core. [8] She has also found ways to create ice VII and superionic ice, exotic forms of water, by using intense laser light to vaporize a target sandwiching water between thin diamond crystals. [9] [10]

Recognition

Gleason was the 2014 recipient of the inaugural Mineral and Rock Physics Early Career Award of the American Geophysical Union Mineral and Rock Physics Focus Group. [6] She was a 2019 recipient of the DOE Early Career Award, [3] and a 2025 recipient of the Presidential Early Career Award for Scientists and Engineers. [11]

Minor planet 10639 Gleason is named for Gleason. [2]

References

  1. Full name from LANL profile, retrieved 2025-10-25
  2. 1 2 "10639 Gleason (1998 VV41)", Small-Body Database Lookup, Jet Propulsion Laboratory, retrieved 2025-10-25
  3. 1 2 3 Sundermier, Ali; Gnida, Manuel (August 1, 2019), "Arianna Gleason and Diana Gamzina receive DOE Early Career Research grants", News center, SLAC, retrieved 2025-10-25
  4. 1 2 "Arianna Gleason", High Energy Density Science, SLAC, retrieved 2025-10-25
  5. 1 2 3 4 5 6 Physics Seminar Series: New Lens on the Frontier of Matter in Extreme Conditions (PDF), University of California, Merced, September 15, 2023, retrieved 2025-10-25
  6. 1 2 3 4 "Gleason Receives 2014 Mineral and Rock Physics Early Career Award", Eos, vol. 96, American Geophysical Union, April 6, 2015, doi:10.1029/2015EO027515 , retrieved 2025-10-25
  7. Kaib, Nathan A. (April 2022), "Comet fading begins beyond Saturn", Science Advances, 8 (13), doi:10.1126/sciadv.abm9130, PMC   8967223 , PMID   35353569
  8. Ananthaswamy, Anil (May 13, 2013), "Earth's iron core isn't all that tough under pressure", New Scientist, retrieved 2025-10-25
  9. Alien ice on Earth: Scientists discover how dense, extraterrestrial ice can form in just billionths of a second, Stanford University, July 11, 2017, retrieved 2025-10-25 via Phys.org
  10. Badasie, Charlene (October 17, 2023), "New Ice Discovered That Reacts To Heat In Astonishing Way", Giant Freakin Robot, retrieved 2025-10-25
  11. "President Biden Honors Nearly 400 Federally Funded Early-Career Scientists", Biden White House Archives, January 14, 2025, retrieved 2025-10-25
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