Theoretical analysis of the electric potential and the electrostatic dust transport around the Shackleton crater in the Lunar south pole region
Author:
Publisher
Springer Science and Business Media LLC
Subject
General Earth and Planetary Sciences
Link
https://link.springer.com/content/pdf/10.1007/s11430-022-1143-3.pdf
Reference17 articles.
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2. Farrell W M, Stubbs T J, Halekas J S, Killen R M, Delory G T, Collier M R, Vondrak R R. 2010. Anticipated electrical environment within permanently shadowed Lunar craters. J Geophys Res, 115: E03004
3. Halekas J S, Delory G T, Lin R P, Stubbs T J, Farrell W M. 2008. Lunar Prospector observations of the electrostatic potential of the Lunar surface and its response to incident currents. J Geophys Res, 113: A09102
4. Hess S L G, Sarrailh P, Mateo-Velez J C, Jeanty-Ruard B, Cipriani F, Forest J, Hilgers A, Honary F, Thiebault B, Marple S R, Rodgers D. 2015. New SPIS capabilities to simulate dust electrostatic charging, transport, and contamination of Lunar probes. IEEE Trans Plasma Sci, 43: 2799–2807
5. Kuznetsov I A, Zakharov A V, Dolnikov G G, Lyash A N, Afonin V V, Popel S I, Shashkova I A, Borisov N D. 2017. Lunar dust: Properties and investigation techniques. Sol Syst Res, 51: 611–622
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1. Characteristics of dust plasma environment at lunar south pole;Acta Physica Sinica;2024
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