Title :
Electromagnetic detection of buried dielectric targets
Author :
Schneider, John ; Brew, John ; Peden, Irene C.
Author_Institution :
Sch. of Electr. Eng. & Comput. Sci., Washington State Univ., Pullman, WA, USA
fDate :
7/1/1991 12:00:00 AM
Abstract :
Scattering from subsurface objects is studied using the T-matrix method. The scatterer is represented by a dielectric ellipsoid, and the source is assumed to be an electric dipole in a borehole. This approach accommodates rotations of the scatterer relative to the source and also permits relaxation of the two-dimensional constraint inherent in some models. In addition, it provides a framework within which a large number of subsurface scattering problems can be studied. To illustrate how this approach can be applied, the fields scattered from highly eccentric ellipsoids are found. In addition, polarization results demonstrate that a method based on the polarization of the scattered field may provide a more robust diagnostic of scatterer location than methods using only a single field component. An experiment based on a scale model of a subsurface tunnel is described. Results from the analytic model compare favorably with those obtained from the experiment
Keywords :
electromagnetic induction; electromagnetic wave polarisation; electromagnetic wave scattering; geomagnetism; geophysical prospecting; geophysical techniques; terrestrial electricity; 2-D constraint relaxation; borehole electric dipole source; buried dielectric targets; dielectric ellipsoid; geophysical prospecting; highly eccentric ellipsoids; scale model; scattered wave field polarisation; scatterer location diagnostic; scatterer rotation; subsurface objects EM wave scattering; subsurface tunnel; Computer science; Dielectrics; Dipole antennas; Earth; Electromagnetic scattering; Ellipsoids; Polarization; Robustness;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
