Space-Filling Fractal Description of Ion-induced Local Thermal Spikes in Molecular Solid of ZnO
Shoaib Ahmad, Muhammad Yousuf

TL;DR
This paper proposes that localized thermal spikes, rather than collision cascades, explain the sputtering and dissociation of molecules in ZnO under ion irradiation, supported by fractal analysis and experimental rate agreement.
Contribution
It introduces a fractal-based model of thermal spikes as the mechanism for ion-induced sputtering in ZnO, differing from traditional cascade explanations.
Findings
Thermal spikes explain sputtering and dissociation in ZnO.
Fractal dimension increases with recoil energy, indicating cascade transition.
Calculated sublimation rates match experimental data.
Abstract
Anions of the molecules ZnO, O2 and atomic Zn and O constitute mass spectra of the species sputtered from pellets of molecular solid of ZnO under Cs+ irradiation. Their normalized yields are independent of energy of the irradiating Cs+. Collision cascades cannot explain the simultaneous sputtering of atoms and molecules. We propose that the origin of the molecular sublimation, dissociation and subsequent emission is the result of localized thermal spikes induced by individual Cs+ ions. The fractal dimension of binary collision cascades of atomic recoils in the irradiated ZnO solid increases with reduction in the energy of recoils. Upon reaching the collision diameters of atomic dimensions, the space-filling fractal-like transition occurs where cascades transform into thermal spikes. These localized thermal spikes induce sublimation, dissociation and sputtering from the region. The…
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Taxonomy
TopicsIon-surface interactions and analysis · Nuclear Physics and Applications · Forensic Fingerprint Detection Methods
