AIMS Mathematics (Aug 2021)

On the numerical solutions for a parabolic system with blow-up

  • Chien-Hong Cho,
  • Ying-Jung Lu

DOI
https://doi.org/10.3934/math.2021683
Journal volume & issue
Vol. 6, no. 11
pp. 11749 – 11777

Abstract

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We study the finite difference approximation for axisymmetric solutions of a parabolic system with blow-up. A scheme with adaptive temporal increments is commonly used to compute an approximate blow-up time. There are, however, some limitations to reproduce the blow-up behaviors for such schemes. We thus use an algorithm, in which uniform temporal grids are used, for the computation of the blow-up time and blow-up behaviors. In addition to the convergence of the numerical blow-up time, we also study various blow-up behaviors numerically, including the blow-up set, blow-up rate and blow-up in $ L^\sigma $-norm. Moreover, the relation between blow-up of the exact solution and that of the numerical solution is also analyzed and discussed.

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