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Main Author: Hein, Steffen
Format: Preprint
Published: 2003
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Online Access:https://arxiv.org/abs/math/0309261
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author Hein, Steffen
author_facet Hein, Steffen
contents Dual scattering channel schemes extend the transmission line matrix numerical method (JOHNS' TLM algorithm) in two directions. For one point, transmission line links are replaced by abstract scattering channels in terms of paired distributions (characteristic impedances are thus neither needed, nor in general defined, e.g.). In the second place, non-trivial cell interface scattering is admitted during the connection cycle. Both extensions open a wide field of application beyond the range of classical time domain schemes, such as YEE's FDTD method and TLM. A DSC heat propagation [diffusion] scheme in non-orthogonal mesh, wherein heat sources are coupled to a lossy Maxwell field, illustrates the approach.
format Preprint
id arxiv_https___arxiv_org_abs_math_0309261
institution arXiv
publishDate 2003
record_format arxiv
spellingShingle Dual Scattering Channel Schemes Extending the Johns Algorithm
Hein, Steffen
Numerical Analysis
65M12
Dual scattering channel schemes extend the transmission line matrix numerical method (JOHNS' TLM algorithm) in two directions. For one point, transmission line links are replaced by abstract scattering channels in terms of paired distributions (characteristic impedances are thus neither needed, nor in general defined, e.g.). In the second place, non-trivial cell interface scattering is admitted during the connection cycle. Both extensions open a wide field of application beyond the range of classical time domain schemes, such as YEE's FDTD method and TLM. A DSC heat propagation [diffusion] scheme in non-orthogonal mesh, wherein heat sources are coupled to a lossy Maxwell field, illustrates the approach.
title Dual Scattering Channel Schemes Extending the Johns Algorithm
topic Numerical Analysis
65M12
url https://arxiv.org/abs/math/0309261