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arxiv: 2111.14498 · v1 · pith:MVHNYWY7new · submitted 2021-11-29 · ❄️ cond-mat.mtrl-sci

Three-dimensional description of vibration-assisted electron knock-on damage

classification ❄️ cond-mat.mtrl-sci
keywords damageelectronknock-ondescriptioneffectselasticgrapheneincluding
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Elastic knock-on is the main electron irradiation damage mechanism in metals including graphene. Atomic vibrations influence its cross-section, but only the out-of-plane direction has been considered so far in the literature. Here, we present a full three-dimensional theory of knock-on damage including the effect of temperature and vibrations to describe ejection into arbitrary directions. We thus establish a general quantitative description of electron irradiation effects through elastic scattering. Applying our methodology to in-plane jumps of pyridinic nitrogen atoms, we show their observed rates imply much stronger inelastic effects than in pristine graphene.

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