Discretization error estimates for penalty formulations of a linearized Canham-Helfrich-type energy
Graeser C, Kies T (2019)
Publication Type: Journal article
Publication year: 2019
Journal
Book Volume: 39
Pages Range: 626-649
Journal Issue: 2
Abstract
This article is concerned with minimization of a fourth-order linearized Canham-Helfrich energy subject to Dirichlet boundary conditions on curves inside the domain. Such problems arise in the modeling of the mechanical interaction of biomembranes with embedded particles. There, the curve conditions result from the imposed particle-membrane coupling. We prove almost-H 5/2 regularity of the solution and then consider two possible penalty formulations. For the combination of these penalty formulations with a Bogner-Fox-Schmit finite element discretization, we prove discretization error estimates that are optimal in view of the solution's reduced regularity. The error estimates are based on a general estimate for linear penalty problems in Hilbert spaces. Finally, we illustrate the theoretical results by numerical computations. An important feature of the presented discretization is that it does not require the particle boundary to be resolved. This is crucial to avoid re-meshing if the presented problem arises as a subproblem in a model where particles are allowed to move or rotate.
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Germany (DE)How to cite
APA:
Graeser, C., & Kies, T. (2019). Discretization error estimates for penalty formulations of a linearized Canham-Helfrich-type energy. IMA Journal of Numerical Analysis, 39(2), 626-649. https://dx.doi.org/10.1093/imanum/drx071
MLA:
Graeser, Carsten, and Tobias Kies. "Discretization error estimates for penalty formulations of a linearized Canham-Helfrich-type energy." IMA Journal of Numerical Analysis 39.2 (2019): 626-649.
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