Title :
Analysis of the power coupling from a waveguide hyperthermia applicator into a three-layered tissue model
Author :
Nikita, Konstantina S. ; Uzunoglu, Nikolaos K.
Author_Institution :
Dept. of Electr. Eng., Nat. Tech. Univ. of Athens, Greece
fDate :
11/1/1989 12:00:00 AM
Abstract :
The power deposition from a rectangular-aperture flanged waveguide into a three-layered stratified tissue medium is analyzed theoretically. The fields inside the tissue layers are expressed in terms of Fourier integrals satisfying the corresponding wave equations, while the fields inside the waveguide are expanded in terms of the guided and evanescent normal modes. An integral equation is derived on the aperture plane of the flanged waveguide by applying the continuity of the tangential electric and magnetic fields. This integral equation is solved by expressing the unknown electric field in terms of the waveguide mode fields and by applying a Galerkin procedure. The electromagnetic fields inside the tissue medium are then determined and patterns of the deposited power at frequencies of 432 MHz and 144 MHz for apertures of 5.6×2.8 cm2 and 16.5×8.3 cm2, respectively, are computed and presented
Keywords :
biomedical equipment; biothermics; boundary-value problems; electromagnetic field theory; integral equations; radiation therapy; radiofrequency heating; waveguide components; 144 MHz; 432 MHz; Fourier integrals; RF heating; biothermics; electric field; electromagnetic fields; evanescent normal modes; guided modes; integral equation; magnetic fields; power coupling; power deposition; rectangular-aperture flanged waveguide; stratified tissue medium; three-layered tissue model; waveguide hyperthermia applicator; Apertures; Electromagnetic fields; Electromagnetic waveguides; Hyperthermia; Integral equations; Magnetic fields; Partial differential equations; Planar waveguides; Rectangular waveguides; Waveguide theory;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
