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A Parametric Finite Element Method for Solid-State Dewetting Problems in Three Dimensions

Quan Zhao, Wei Jiang, Weizhu Bao

2020SIAM Journal on Scientific Computing42 citationsDOIOpen Access PDF

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 each time step, we first update the position of the contact line according to the relaxed contact angle condition; then, by using the position of the new contact line as the boundary condition, we solve a linear system resulting from the discretization of PFEM to obtain the new surface at the next step. The well-posedness of the solution of the PFEM is also established. Extensive numerical results are reported to demonstrate the accuracy and efficiency of the proposed PFEM and to show the complexities of the dewetting morphology evolution observed in solid-state dewetting experiments.

Topics & Concepts

DewettingFinite element methodDiscretizationParametric statisticsPosition (finance)Boundary value problemSurface (topology)Mathematical analysisLine (geometry)MathematicsContact angleMechanicsNumerical analysisBoundary (topology)Parametric surfaceGeometryMicrobeamParametric modelPhysicsClassical mechanicsAlgorithmStatistical physicsMaterials scienceDiffusionFocus (optics)Fluid Dynamics and Thin FilmsSolidification and crystal growth phenomenaOptical Coatings and Gratings
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