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W2023874450 abstract "Swift heavy-ion irradiation of amorphous materials causes nonsaturating plastic deformation. Thin samples deform anisotropically as if they were hammered. Thick samples or thin layers on top of thick crystalline substrates flow plastically during nonperpendicular irradiations. In this paper, we demonstrate that the constitutive equation of ion hammering not only describes the homogeneous flow of uniformly irradiated matter but also the deformation effects at boundaries between irradiated and unirradiated matter. An analytic expression is derived which describes the flow of thin surface layers in the vicinity of an abrupt boundary. This solution is complemented by finite-element calculations, which reveal the influence of finite transition widths. The constitutive equation is also solved numerically to unveil the boundary effects for thick samples, where the ion-induced deformation depends on the distance from the specimen surface. The calculations are compared with experiments carried out with thin amorphous silicon surface layers and thick crown glasses. The excellent agreement confirms the validity of the constitutive equation and supports its microscopic basis, namely the idea of an efficient relaxation of thermally induced shear stresses along the ion path during the thermal spike period." @default.
W2023874450 created "2016-06-24" @default.
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W2023874450 date "2005-08-03" @default.
W2023874450 modified "2023-09-23" @default.
W2023874450 title "Boundary effects on the plastic flow of amorphous layers during high-energy heavy-ion irradiation" @default.
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W2023874450 doi "https://doi.org/10.1103/physrevb.72.054108" @default.
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