A spectral-domain method, for the solution of the two-dimensional electromagnetic plane-wave scattering by a finite set of perfectly-conducting or dielectric cylinders buried in a dielectric half-space, has been developed. The scattered Held is represented in terms of a superposition of cylindrical waves, and use is made of the plane-wave spectrum to take into account the reflection and transmission Of Such waves by the interface. The problem is solved for both the near- and the far-field regions, for TM and TE polarizations. In this work we briefly resume file theoretical basis of our approach. For configurations in which more obstacles are buried in the ground, and they are near to one another, we give details about the convergence rate of our method, and about the properties Of our algorithms for file integration of cylindrical functions. With our technique it is Possible to simulate two-dimensional buried obstacles of general shape, by means of a Suitable set Of circular-section cylinders: in this paper we show preliminary results Of Simulations carried out using arrays of same-radius circular cylinders, and of different-radius circular cylinders. (C) 2008 Elsevier B.V. All rights reserved.
Cylindrical-wave approach for the electromagnetic scattering problem by buried two-dimensional objects / Pajewski, Lara; G., Schettini; Frezza, Fabrizio. - In: JOURNAL OF APPLIED GEOPHYSICS. - ISSN 0926-9851. - 67:4(2009), pp. 318-326. (Intervento presentato al convegno 4th International Workshop on Advanced Ground Penetrating Radar tenutosi a Naples, ITALY nel JUN 27-29, 2007) [10.1016/j.jappgeo.2008.03.001].
Cylindrical-wave approach for the electromagnetic scattering problem by buried two-dimensional objects
PAJEWSKI, Lara;FREZZA, Fabrizio
2009
Abstract
A spectral-domain method, for the solution of the two-dimensional electromagnetic plane-wave scattering by a finite set of perfectly-conducting or dielectric cylinders buried in a dielectric half-space, has been developed. The scattered Held is represented in terms of a superposition of cylindrical waves, and use is made of the plane-wave spectrum to take into account the reflection and transmission Of Such waves by the interface. The problem is solved for both the near- and the far-field regions, for TM and TE polarizations. In this work we briefly resume file theoretical basis of our approach. For configurations in which more obstacles are buried in the ground, and they are near to one another, we give details about the convergence rate of our method, and about the properties Of our algorithms for file integration of cylindrical functions. With our technique it is Possible to simulate two-dimensional buried obstacles of general shape, by means of a Suitable set Of circular-section cylinders: in this paper we show preliminary results Of Simulations carried out using arrays of same-radius circular cylinders, and of different-radius circular cylinders. (C) 2008 Elsevier B.V. All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
