Time-marching numerical schemes for the electric field integral equation on a straight thin wire |
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| Authors: | Penny J Davies Dugald B Duncan |
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| Institution: | (1) Department of Mathematics and Computer Science, The University, DD1 4HN Dundee, UK;(2) Department of Mathematics, Heriot-Watt University, Riccarton, EH14 4AS Edinburgh, UK |
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| Abstract: | We derive and analyse four algorithms for computing the current induced on a thin straight wire by a transient electric field.
They all involve solving the thin wire electric field integral equations (EFIEs) and consist of a very accurate differential
equations solver together with various schemes to approximate the vector potential integral equation. We carry out a rigorous
numerical stability analysis of each of these methods. This has not previously been done for solution schemes for the thin
wire EFIEs. Each scheme is shown to be stable and convergent provided the radius of the wire is small enough for the thin
wire equations to be a valid model. |
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| Keywords: | Electric field integral equation thin wire time-marching method of moments accuracy stability convergence |
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