ACTA MATHEMATICA UNIVERSITATIS COMENIANAE
Vol. 67, 1 (1998)
pp. 17-42
SIMULATION OF ANISOTROPIC MOTION BY MEAN CURVATURE - COMPARISON OF PHASE FIELD AND SHARP INTERFACE APPROACHES
M. BENES and K. MIKULA
Abstract.
Motion by mean curvature is a problem arising in multi-phase thermomechanics and pattern formation. The article presents a numerical comparison of two approaches to the dynamics of closed curves, namely sharp-interface description leading to a degenerate-diffusion equation of slow and fast diffusion types related to anisotropic curve shortening flow, and a diffusive-interface description in the form of a recently improved version of the phase-field model. Numerical scheme used for simulation of (isotropic) phase field equation is analyzed with regards on the convergence, and simultaneously existence, uniqueness and asymptotical behaviour if the diffusive interface becomes sharp. The presented computational results indicate a consistent relation of both approaches and demonstrate the behaviour of both models in different situations of curve dynamics.
AMS subject classification.
80A22, 82C26, 35A40, 35K65, 65N40, 53C80
Keywords.
Download: Adobe PDF 
Compressed Postscript 
Acta Mathematica Universitatis Comenianae
Institute of Applied
Mathematics
Faculty of Mathematics,
Physics and Informatics
Comenius University
842 48 Bratislava, Slovak Republic
Telephone: + 421-2-60295111 Fax: + 421-2-65425882
e-Mail: amuc@fmph.uniba.sk
Internet: www.iam.fmph.uniba.sk/amuc
© Copyright 2001, ACTA MATHEMATICA
UNIVERSITATIS COMENIANAE