DocumentCode
2440843
Title
Interference modulation for microwave dielectric heating
Author
Meier, I. ; De Swardt, J.B.
Author_Institution
Dept. of Electr. & Electron. Eng., Stellenbosch Univ., South Africa
fYear
1998
fDate
7-8 Sep 1998
Firstpage
467
Lastpage
470
Abstract
Microwave field pattern synthesis using interference is proposed as a novel approach to microwave heating. It is based on ideas already well known from optics (interference circles, holograms), but applied and adapted to microwaves. The angle of total transmission (Brewster´s angle) keeps reflections at the microwave to material interface to a minimum, thereby improving energy transfer. Signals from two injection-locked magnetron based sources are made to interfere with each other to demonstrate the idea. No direct limit is imposed on the number of sources by the topology. Simulation indicates that certain heating patterns can be obtained, simply changing relative phases between sources. Phase being variable, particular average heat distribution patterns can be realized throughout the interference space. Limits mainly occur as a result of material properties, especially loss, material dimensions and wavelength
Keywords
electromagnetic wave interference; injection locked oscillators; magnetrons; microwave heating; Brewster angle; angle of total transmission; average heat distribution patterns; energy transfer; heating patterns; injection-locked magnetron based sources; interference modulation; interference space; microwave dielectric heating; microwave field pattern synthesis; microwave to material interface; relative phases; Dielectric materials; Electromagnetic heating; Energy exchange; Interference; Magnetic materials; Optical materials; Optical modulation; Optical reflection; Space heating; Topology;
fLanguage
English
Publisher
ieee
Conference_Titel
Communications and Signal Processing, 1998. COMSIG '98. Proceedings of the 1998 South African Symposium on
Conference_Location
Rondebosch
Print_ISBN
0-7803-5054-5
Type
conf
DOI
10.1109/COMSIG.1998.737007
Filename
737007
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