In this paper we present some numerical simulations of motion by mean curvature associated to an underlying anisotropy of crystalline type. Such anisotropies are characterized by a Frank diagram (and consequently a Wulff shape) of polygonal type. Our simulations are based on an Allen-Cahn type regularization, performed in the context of a Finsler geometry. The choice of a nonregular double well potential leads to a double obstacle formulation that allows us to exploit the dynamic mesh algorithm, thus reducing considerably the computational cost. A number of simulations show the robustness of our discretization process, which is capable to deal with situations (presence of a generic forcing term) that are critical for other known numerical techniques.
Paolini, M., Goglione, R., Numerical simulations of crystalline motion by mean curvature with Allen-Cahn relaxation, Comunicazione, in Free boundary problems, theory and applications, Pitman Res. Notes Math. Ser., 363, (Zakopane, 11-18 June 1995), Longman Scientific and Technical, Harlow 1996: 203-216 [http://hdl.handle.net/10807/21431]
Numerical simulations of crystalline motion by mean curvature with Allen-Cahn relaxation
Paolini, Maurizio;
1996
Abstract
In this paper we present some numerical simulations of motion by mean curvature associated to an underlying anisotropy of crystalline type. Such anisotropies are characterized by a Frank diagram (and consequently a Wulff shape) of polygonal type. Our simulations are based on an Allen-Cahn type regularization, performed in the context of a Finsler geometry. The choice of a nonregular double well potential leads to a double obstacle formulation that allows us to exploit the dynamic mesh algorithm, thus reducing considerably the computational cost. A number of simulations show the robustness of our discretization process, which is capable to deal with situations (presence of a generic forcing term) that are critical for other known numerical techniques.
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