Litcius/Paper detail

Nanopatterning of the (001) surface of crystalline Ge by ion irradiation at off-normal incidence: Experiment and simulation

Denise Erb, Ricardo de Schultz, A.S. Il'inov, K. Nordlund, R. Mark Bradley, Stefan Facsko

2020Physical review. B./Physical review. B16 citationsDOIOpen Access PDF

Abstract

Intricate topographical patterns can form on the surface of crystalline Ge(001) subject to low-energy ion irradiation in the reverse epitaxy regime, i.e., at elevated temperatures which enable dynamic recrystallization. We compare such nanoscale patterns produced by irradiation from varied polar and azimuthal ion incidence angles with corresponding calculated surface topographies. To this end, we propose a continuum equation including both anisotropic erosive and anisotropic diffusive effects. Molecular dynamics simulations provide the coefficients of angle-dependent sputter erosion for the calculations. By merely changing these coefficients accordingly, the experimentally observed surface morphologies can be reproduced, except for extreme ion incidence angles. Angle-dependent sputter erosion is thereby identified as a dominant mechanism in ion-induced pattern formation on crystalline surfaces under irradiation from off-normal incidence angles.

Topics & Concepts

IrradiationMaterials scienceIonSputteringAnisotropyMolecular dynamicsAzimuthNanoscopic scalePolarMolecular physicsOpticsThin filmNanotechnologyChemistryComputational chemistryPhysicsNuclear physicsAstronomyOrganic chemistryIon-surface interactions and analysisIntegrated Circuits and Semiconductor Failure AnalysisDiamond and Carbon-based Materials Research