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Solar wind sputtering of wollastonite as a lunar analogue material – Comparisons between experiments and simulations.

Authors :
Szabo, Paul S.
Chiba, Rimpei
Biber, Herbert
Stadlmayr, Reinhard
Berger, Bernhard M.
Mayer, Daniel
Mutzke, Andreas
Doppler, Michael
Sauer, Markus
Appenroth, Julia
Fleig, Jürgen
Foelske-Schmitz, Annette
Hutter, Herbert
Mezger, Klaus
Lammer, Helmut
Galli, André
Wurz, Peter
Aumayr, Friedrich
Source :
ICARUS. Nov2018, Vol. 314, p98-105. 8p.
Publication Year :
2018

Abstract

The sputtering of wollastonite (CaSiO 3 ) by solar wind-relevant ions has been investigated experimentally and the results are compared to the binary collision approximation (BCA) codes SDTrimSP and SRIM-2013. Absolute sputtering yields are presented for Ar projectiles as a function of ion impact energy, charge state and impact angle as well as for solar wind H projectiles as a function of impact angle. Erosion of wollastonite by singly charged Ar ions is dominated by kinetic sputtering. The absolute magnitude of the sputtering yield and its dependence on the projectile impact angle can be well described by SDTrimSP as long as the actual sample composition is used in the simulation. SRIM-2013 largely overestimates the yield especially at grazing impact angles. For higher Ar charge states, the measured yield is strongly enhanced due to potential sputtering. Sputtering yields under solar wind-relevant H + bombardment are smaller by two orders of magnitude compared to Ar. Our experimental yields also show a less pronounced angular dependence than predicted by both BCA programs, probably due to H implantation in the sample. Based on our experimental findings and extrapolations to other solar wind ions by using SDTrimSP, we present a model for the complete solar wind sputtering of a flat wollastonite surface as a function of projectile ion impact angle, which predicts a sputtering yield of 1.29 atomic mass units per solar wind ion for normal impact. We find that mostly He and some heavier ions increase the sputtering yield by more than a factor of two as compared to bombardment with only H + ions. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00191035
Volume :
314
Database :
Academic Search Index
Journal :
ICARUS
Publication Type :
Academic Journal
Accession number :
130764968
Full Text :
https://doi.org/10.1016/j.icarus.2018.05.028