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A fast method for the solution of a hypersingular integral equation arising in a waveguide scattering problem (Articolo in rivista)
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- A fast method for the solution of a hypersingular integral equation arising in a waveguide scattering problem (Articolo in rivista) (literal)
- Anno
- 2006-01-01T00:00:00+01:00 (literal)
- Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#doi
- 10.1002/nme.1633 (literal)
- Alternative label
G. Monegato, R. Orta, R. Tascone (2006)
A fast method for the solution of a hypersingular integral equation arising in a waveguide scattering problem
in International journal for numerical methods in engineering (Print); John Wiley & Sons, Ltd., Chichester (Regno Unito)
(literal)
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- G. Monegato, R. Orta, R. Tascone (literal)
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- http://onlinelibrary.wiley.com/doi/10.1002/nme.1633/abstract (literal)
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- ISI Web of Science (WOS) (literal)
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- G. Monegato - Politecnico di Torino - Dipartimento di Matematica
R. Orta - Politecnico di Torino - Dipartimento di Elettronica (literal)
- Titolo
- A fast method for the solution of a hypersingular integral equation arising in a waveguide scattering problem (literal)
- Abstract
- In this paper we study the time-harmonic electromagnetic scattering problem associated with a
T-junction between two rectangular waveguides. This junction is composed by an infinite (primary)
waveguide and by a semi-infinite (secondary) waveguide with the same height and coupled through
a common aperture.
A standard calculation reduces Maxwell equations to a simpler scalar two-dimensional non-homogeneous
Helmholtz equation, to which the domain decomposition technique is applied. In each waveguide
the scattered electric field satisfies a non-homogeneous Helmholtz equation with homogeneous
boundary conditions. An integral representation for this field is then obtained, from which the corresponding
expression for the scattered magnetic field follows. By enforcing the continuity of the
tangential component of the total electric and magnetic fields generated in the two separate waveguides
at their interface, we obtain a hypersingular integral equation defined on an interval. From the solution
of this equation the scattering matrix of the junction is easily computed.
The integral equation has two kernels given in terms of series expansions. Our analysis determines
the relevant singular components and shows that besides the standard second-order hypersingularity,
one of the kernels also has a fixed-point second-order hypersingularity at each endpoint of the interval
of integration.
The equation is finally solved by means of a Galerkin method, whose implementation is performed
quite efficiently, so that the overall numerical method is very fast and accurate. The complete numerical
solution is presented in the form of parametric plots and convergence results are discussed. (literal)
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