Title :
Array and element design for complementary large-volume power deposition patterns in microwave heating
Author :
Strickland, P.C.
Author_Institution :
CAL Corp., Ottawa, Ont., Canada
fDate :
4/1/1994 12:00:00 AM
Abstract :
In interstitial hyperthermia cancer treatment and other invasive microwave heating applications, arrays of implanted coaxial dipoles have been used to provide regional heating of human tissue and a variety of materials. Phase modulation of the array-element excitations has been proposed as a means of obtaining uniform, time-average power densities. In the paper an insulated monopole at its second resonance is described as an alternative to the large-diameter coaxial dipole, and a pair of complementary excitations is proposed as a means of obtaining uniform, time-average power density. The array configuration considered consists of four monopoles inserted into a homogeneous medium having a high, complex permittivity. The cases of bare metal and insulated monopoles are analyzed using the method of moments and the theory of insulated antennas in matter.
Keywords :
biomedical equipment; biothermics; microwave antenna arrays; monopole antennas; numerical analysis; radiation therapy; radiofrequency heating; array configuration; array-element excitations; bare metal; complementary excitations; complementary large-volume power deposition patterns; complex permittivity; element design; homogeneous medium; human tissue; implanted coaxial dipoles; insulated antennas; insulated monopole; insulated monopoles; interstitial hyperthermia cancer treatment; invasive microwave heating applications; method of moments; microwave heating; phase modulation; regional heating; second resonance; uniform time-average power densities; Arrays; Density measurement; Dielectrics; Electromagnetic heating; Microwave theory and techniques; Power system measurements;
Journal_Title :
Electrical and Computer Engineering, Canadian Journal of
DOI :
10.1109/CJECE.1994.6592070
