Wilhelm, R. A. (2022). The charge exchange of slow highly charged ions at surfaces unraveled with freestanding 2D materials. Surface Science Reports, 77(4), 1–32. https://doi.org/10.1016/j.surfrep.2022.100577
E134-03 - Forschungsbereich Atomic and Plasma Physics
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Journal:
Surface Science Reports
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ISSN:
0167-5729
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Date (published):
2022
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Number of Pages:
32
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Publisher:
ELSEVIER
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Peer reviewed:
Yes
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Keywords:
2d material; Charge exchange; Energy loss; Highly charged ions; ion beams; Stopping power; van-der-waals heterostructures
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Abstract:
The property of a variable charge state makes ions unique to other types of radiation a material surface can be exposed to. As a consequence of charge exchange between ions and surfaces, energy is transferred to the surface and material damage may be triggered. Furthermore, a changing charge state of the ion alters its slowing down process in solids and has important implications when back-scattered ions are to be measured for material analysis purposes. Over the last decades extensive research was devoted to the understanding of ion charge exchange with solids. Here I review recent progress in this field with special emphasize on slow ions in high charge states. This class of ions allows a detailed analysis of charge exchange in experiments, which employ also ultra-thin solid targets and therefore give experimental access to electronic processes on the femtosecond timescale. In this review I will discuss general properties of charge exchange and present typical experimental techniques. I will also discuss current developments in the modelling and simulation of ion-surface interaction. Recent findings using freestanding 2D materials are discussed as well as results from spectroscopy of emitted secondary particles. The paper concludes with a unified picture of ion charge exchange at surfaces and presents possible applications based on the understanding of the underlying physics.