Lifting of Dust Particles under the Action of Laser Radiation on a Chondritic Target and the Possibility of Modeling Plasma–Dust Processes on the Lunar Surface

Lifting of Dust Particles under the Action of Laser Radiation on a Chondritic Target and the Possibility of Modeling Plasma–Dust Processes on the Lunar Surface

The first investigation devoted to experimental modeling of the lift of dust particles by shock wave over a target surface has been performed on the Saturn setup for studying the interaction of laser radiation with a porous chondritic target surface bearing finely dispersed talc particles. Results o...

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Veröffentlicht in:Technical physics letters 2020-10, Vol.46 (10), p.1041-1044
Hauptverfasser: Burdonskii, I. N., Leonov, A. G., Yufa, V. N., Golub, A. P., Popel, S. I., Sadovski, A. M.
Format: Artikel
Sprache:eng
Schlagworte:
Classical and Continuum Physics
Elastic deformation
Lunar dust
Lunar surface
Modelling
Moon
Physics
Physics and Astronomy
Rapid prototyping
Regolith
Shock waves
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container_end_page 1044
container_issue 10
container_start_page 1041
container_title Technical physics letters
container_volume 46
creator Burdonskii, I. N.
Leonov, A. G.
Yufa, V. N.
Golub, A. P.
Popel, S. I.
Sadovski, A. M.
description The first investigation devoted to experimental modeling of the lift of dust particles by shock wave over a target surface has been performed on the Saturn setup for studying the interaction of laser radiation with a porous chondritic target surface bearing finely dispersed talc particles. Results of experimental modeling can be used to describe the lift of dust particles from the zones of nonlinear and linear elastic deformation of a regolith substance characterizing a meteoroid impact on the Moon’s surface.
doi_str_mv 10.1134/S106378502010020X
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source Springer Nature - Complete Springer Journals
subjects Classical and Continuum Physics
Elastic deformation
Lunar dust
Lunar surface
Modelling
Moon
Physics
Physics and Astronomy
Rapid prototyping
Regolith
Shock waves
title Lifting of Dust Particles under the Action of Laser Radiation on a Chondritic Target and the Possibility of Modeling Plasma–Dust Processes on the Lunar Surface
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