Math @ Duke

Publications [#243355] of J. Thomas Beale
Papers Published
 Ying, W; Beale, JT, A fast accurate boundary integral method for potentials on closely packed cells,
Communications in computational physics, vol. 14 no. 4
(2013),
pp. 10731093, ISSN 18152406 [pdf], [doi]
(last updated on 2018/06/21)
Abstract: Boundary integral methods are naturally suited for the computation of harmonic functions on a region having inclusions or cells with different material properties. However, accuracy deteriorates when the cell boundaries are close to each other. We present a boundary integralmethod in two dimensions which is specially designed tomaintain second order accuracy even if boundaries are arbitrarily close. Themethod uses a regularization of the integral kernel which admits analytically determined corrections to maintain accuracy. For boundaries with many components we use the fast multipolemethod for efficient summation. We compute electric potentials on a domain with cells whose conductivity differs from that of the surrounding medium. We first solve an integral equation for a source term on the cell interfaces and then find values of the potential near the interfaces via integrals. Finally we use a Poisson solver to extend the potential to a regular grid covering the entire region. A number of examples are presented. We demonstrate that increased refinement is not needed to maintain accuracy as interfaces become very close. © 2013 GlobalScience Press.


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