2020
DOI: 10.1137/19m1281666
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A Parametric Finite Element Method for Solid-State Dewetting Problems in Three Dimensions

Abstract: We propose a parametric finite element method (PFEM) for efficiently solving the morphological evolution of solid-state dewetting of thin films on a flat rigid substrate in three dimensions (3D). The interface evolution of the dewetting problem in 3D is described by a sharp-interface model, which includes surface diffusion coupled with contact line migration. A variational formulation of the sharp-interface model is presented, and a PFEM is proposed for spatial discretization. For temporal discretization, at e… Show more

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Cited by 36 publications
(19 citation statements)
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“…In the existing literature, a Willmore regularization energy term is often added into the model to deal with the strongly anisotropic cases [14,3,19], but here we only use one unified scheme to tackle the two cases. In the future, we will further explore the high performance of the schemes, for the strongly anisotropic cases; and extend the new variational formulation to anisotropic surface diffusion of open/closed surfaces in three dimensions [21,39].…”
Section: Application For Morphological Evolutionsmentioning
confidence: 99%
“…In the existing literature, a Willmore regularization energy term is often added into the model to deal with the strongly anisotropic cases [14,3,19], but here we only use one unified scheme to tackle the two cases. In the future, we will further explore the high performance of the schemes, for the strongly anisotropic cases; and extend the new variational formulation to anisotropic surface diffusion of open/closed surfaces in three dimensions [21,39].…”
Section: Application For Morphological Evolutionsmentioning
confidence: 99%
“…e h,τ (t = 0.2) order e h,τ (t = 0.5) order e h,τ (t = 2.0) order We test the convergence rate of the numerical method in (2.9) by carrying out simulations using different mesh sizes and time step sizes. To measure the difference between two different closed curves Γ 1 and Γ 2 , we adopt the manifold distance in [32]. Let Ω 1 and Ω 2 be the inner regions enclosed by Γ 1 and Γ 2 , respectively, then the manifold distance is given by the area of the symmetric difference region between Ω 1 and Ω 2 [32]:…”
Section: (H τ )mentioning
confidence: 99%
“…To measure the difference between two different closed curves Γ 1 and Γ 2 , we adopt the manifold distance in [32]. Let Ω 1 and Ω 2 be the inner regions enclosed by Γ 1 and Γ 2 , respectively, then the manifold distance is given by the area of the symmetric difference region between Ω 1 and Ω 2 [32]:…”
Section: (H τ )mentioning
confidence: 99%
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