Title :
Procedures for noninvasive electromagnetic property and dosimetry measurements
Author :
Hagmann, Mark J. ; Levin, Ronald L.
Author_Institution :
Dept. of Electr. Eng., Florida Int. Univ., Miami, FL, USA
fDate :
1/1/1990 12:00:00 AM
Abstract :
Five different formulations are presented that can be used to determine local values of the complex permittivity, electric field, polarization current density, and rate of energy deposition, within an inhomogeneous dielectric object of arbitrary shape. These formulations were obtained from the matrix equations for moment-method solutions of the electric field integral equation. Implementation of these formulations requires knowledge of the shape of the object and the incident electric field, and measurements of the scattered electric field at a number of points external to the object. The use of a new type of model, with antenna arrays for measurements, has caused a substantial improvement in matrix conditioning. Results of numerical simulations using 21-cell models with high dielectric contrast (bone/muscle) suggest that all five formulations have sufficient accuracy to warrant experimental testing using cylindrical scatterers with transverse magnetic polarization
Keywords :
biomedical measurement; dosimetry; electromagnetic wave scattering; permittivity; 27.12 MHz; antenna arrays; arbitrary shape; biomedical applications; bone/muscle; complex permittivity; cylindrical scatterers; electric field; electric field integral equation; energy deposition; high dielectric contrast; incident electric field; inhomogeneous dielectric object; matrix equations; moment-method solutions; polarization current density; scattered electric field; transverse magnetic polarization; Antenna measurements; Current density; Dielectric measurements; Dosimetry; Electromagnetic scattering; Electromagnetic wave polarization; Integral equations; Magnetic field measurement; Permittivity; Shape measurement;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
