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Paper detail

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

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.

preprint2021arXivOpen access
Alexandru ChiritaAlexander MarkevichMukesh TripathiNicholas A. PikeMatthieu J. VerstraeteJani KotakoskiToma Susi
cond-mat.mtrl-sci
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Alexandru ChiritaAlexander MarkevichMukesh TripathiNicholas A. PikeMatthieu J. VerstraeteJani KotakoskiToma Susi

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