The Planetary Science Journal (Jan 2024)

Electrostatic Dust Analyzer for Dust Transport Measurements on the Lunar Surface

  • X. Wang,
  • M. Horanyi,
  • C. Fisher,
  • L. Eberwein,
  • J. Deca,
  • S. Knappmiller,
  • D. Hansen,
  • Z. Levin,
  • R. Wing,
  • D. Summers,
  • W. Cole,
  • P. Buedel,
  • J. Drouet,
  • S. Tucker,
  • I. Garrick-Bethell

DOI
https://doi.org/10.3847/PSJ/ad1ffe
Journal volume & issue
Vol. 5, no. 2
p. 41

Abstract

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Lunar dust charging and transport is a more than five-decade-old problem. A high-fidelity and flight-qualified Electrostatic Dust Analyzer (EDA) has been developed to measure the charge, velocity, mass (size), and flux of electrostatically lofted dust particles on the lunar surface. Recent laboratory findings have greatly advanced our fundamental understanding of the dust-charging and -lofting mechanisms, providing critical constraints to the design of the EDA instrument. EDA consists of two identical dust trajectory sensor (DTS) units on both ends of the instrument with a deflection field electrode (DFE) unit lying in between. When a dust particle enters the instrument, charge signals induced on four arrays of wire electrodes in the two DTS units determine the total charge of the dust particle and its trajectory passing through the instrument from which the dust velocity vector is measured. The mass (size) is derived from the deflection of the dust trajectory by the DFE. A dust campaign was performed to characterize the instrument’s performance. The results meet or exceed the requirements. EDA has achieved high Technology Readiness Level 6. EDA measurements are important for assessing the dust environment on the lunar surface and its subsequent impact on crew safety and the operation of exploration systems. Additionally, EDA measurements are expected to have important implications for the surface evolution of all airless bodies, including the Moon and asteroids, in the solar system.

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