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Dusty streaks on the Moon: fingerprints of multiphase flow instabilities

J. Sebastian Rubio, Neil S. Rodrigues, Yinghe Qi, Meet Patel, Matthew T. Gorman, Miguel X. Diaz Lopez, Jesse Capecelatro, Paul M. Danehy and Rui Ni ()
Additional contact information
J. Sebastian Rubio: Johns Hopkins University
Neil S. Rodrigues: NASA Langley Research Center
Yinghe Qi: Johns Hopkins University
Meet Patel: University of Michigan
Matthew T. Gorman: Johns Hopkins University
Miguel X. Diaz Lopez: Johns Hopkins University
Jesse Capecelatro: University of Michigan
Paul M. Danehy: NASA Langley Research Center
Rui Ni: Johns Hopkins University

Nature Communications, 2025, vol. 16, issue 1, 1-6

Abstract: Abstract From the crewed Apollo missions to the recent Chinese Chang’e landings, the interaction between spacecraft exhaust plumes and lunar soil produces dusty clouds with high-speed particle ejection. Despite varying landing sites, remarkably stable streak patterns were observed, raising questions about their origin. We solved this puzzle by showing that these patterns were driven by Görtler instability from the curved compressed shear layer of the supersonic but surprisingly laminar jet. This instability creates vortical structures that entrain and eject particles. The number of streaks exhibits an interesting scaling with the jet pressure ratio, which can be modeled with linear instability theory and shows excellent agreement with scaled-down experiments, simulations, and actual observations in landing videos. Our findings provide a fluid physics explanation of extraterrestrial landings, highlighting the role of particle-laden flows and paving the way for future missions to optimize landing strategies and mitigate dust cloud effects on equipment and visibility.

Date: 2025
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DOI: 10.1038/s41467-025-62001-8

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