An analytic series method for Laplacian problems with mixed boundary conditions
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摘要
Mixed boundary value problems are characterised by a combination of Dirichlet and Neumann conditions along at least one boundary. Historically, only a very small subset of these problems could be solved using analytic series methods (“analytic” is taken here to mean a series whose terms are analytic in the complex plane). In the past, series solutions were obtained by using an appropriate choice of axes, or a co-ordinate transformation to suitable axes where the boundaries are parallel to the abscissa and the boundary conditions are separated into pure Dirichlet or Neumann form. In this paper, I will consider the more general problem where the mixed boundary conditions cannot be resolved by a co-ordinate transformation. That is, a Dirichlet condition applies on part of the boundary and a Neumann condition applies along the remaining section. I will present a general method for obtaining analytic series solutions for the classic problem where the boundary is parallel to the abscissa. In addition, I will extend this technique to the general mixed boundary value problem, defined on an arbitrary boundary, where the boundary is not parallel to the abscissa. I will demonstrate the efficacy of the method on a well known seepage problem.
论文关键词:34B05,35J25,42B05,65M70,74H05,Mixed boundary value problem,Series solution,Analytic solution,Seepage,Pseudo-spectral method
论文评审过程:Received 31 March 2006, Revised 5 September 2006, Available online 29 December 2006.
论文官网地址:https://doi.org/10.1016/j.cam.2006.10.088