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Machine learning driven simulated deposition of carbon films: From low-density to diamondlike amorphous carbon

A. Miguel, Gábor Cśanyi, Tomi Laurila, Volker L. Deringer

2020Physical review. B./Physical review. B82 citationsDOIOpen Access PDF

Abstract

Amorphous carbon (a-C) materials have diverse interesting and useful properties, but the understanding of their atomic-scale structures is still incomplete. Here, we report on extensive atomistic simulations of the deposition and growth of a-C films, describing interatomic interactions using a machine learning (ML) based Gaussian approximation potential model. We expand widely on our initial work [M. A. Caro et al., Phys. Rev. Lett. 120, 166101 (2018)] by now considering a broad range of incident ion energies, thus modeling samples that span the entire range from low-density ($s{p}^{2}$-rich) to high-density ($s{p}^{3}$-rich, ``diamondlike'') amorphous forms of carbon. Two different mechanisms are observed in these simulations, depending on the impact energy: low-energy impacts induce $sp$- and $s{p}^{2}$-dominated growth directly around the impact site, whereas high-energy impacts induce peening. Furthermore, we propose and apply a scheme for computing the anisotropic elastic properties of the a-C films. Our work provides fundamental insight into this intriguing class of disordered solids, as well as a conceptual and methodological blueprint for simulating the atomic-scale deposition of other materials with ML driven molecular dynamics.

Topics & Concepts

Carbon filmCarbon fibersMaterials scienceDeposition (geology)Amorphous carbonAmorphous solidChemical engineeringDiamond-like carbonNanotechnologyThin filmEngineering physicsComposite materialGeologyEngineeringChemistryComposite numberCrystallographySedimentPaleontologyMachine Learning in Materials ScienceDiamond and Carbon-based Materials ResearchSemiconductor materials and devices
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