C. Cupak scite author profile

The solar wind continuously impacts on rocky bodies in space, eroding their surface, thereby contributing significantly to the exosphere formations. The BepiColombo mission to Mercury will investigate the Hermean exosphere, which makes an understanding of the precise formation processes crucial for evaluation of the acquired data. We therefore developed an experimental setup with two microbalances that allows us to compare the sputter behavior of deposited thin solid layers with that of real mineral samples in the form of pressed powder. In addition, this technique is used to study the angular distribution of the sputtered particles. Using 4 keV He+ and 2 keV Ar+ ions, the sputter behavior of pellets of the minerals enstatite (MgSiO3) and wollastonite (CaSiO3) is studied, because these minerals represent analogs for the surface of the planet Mercury or the Moon. Pellets of powdered enstatite show significantly lower sputter yields than thin amorphous enstatite films prepared by pulsed laser deposition. 3D simulations of sputtering based on surface topography data from atomic force microscopy show that the observed reduction can be explained by the much rougher pellet surface alone. We therefore conclude that sputter yields from amorphous thin films can be applied to surfaces of celestial bodies exposed to ion irradiation, provided the effects of surface roughness, as encountered in realistic materials in space, are adequately accounted for. This also implies that taking surface roughness into account is important for modeling of the interaction of the solar wind with the surface of Mercury.

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Erosion of iron-tungsten model films by deuterium ion irradiation: a benchmark for TRI3DYN

Stadlmayr

Szabo

Mayer

et al. 2020

Phys. Scr.

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Sputtering of nanostructured tungsten and comparison to modelling with TRI3DYN

Stadlmayr

Szabo

Mayer

et al. 2020

Journal of Nuclear Materials

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Graphical user interface for SDTrimSP to simulate sputtering, ion implantation and the dynamic effects of ion irradiation

Szabo

Weichselbaum

Biber

et al. 2022

Nuclear Instruments and Methods in Physics Research Section B:

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C. Cupak

Sputter yields of rough surfaces: Importance of the mean surface inclination angle from nano- to microscopic rough regimes

Sputtering Behavior of Rough, Polycrystalline Mercury Analogs

Erosion of iron-tungsten model films by deuterium ion irradiation: a benchmark for TRI3DYN

Sputtering of nanostructured tungsten and comparison to modelling with TRI3DYN

Graphical user interface for SDTrimSP to simulate sputtering, ion implantation and the dynamic effects of ion irradiation

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