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Coupling with an Adjustable Compound Iris in a Single Mode Applicator

Published online by Cambridge University Press:  25 February 2011

Hussamaldin S. Sa'adaldin
Affiliation:
Department of Electrical and Computer Engineering, George Mason University, Fairfax, VA 22030
W. Murray Black
Affiliation:
Department of Electrical and Computer Engineering, George Mason University, Fairfax, VA 22030
Iftikhar Ahmad
Affiliation:
Technology Assessment and Transfer Inc., Annapolis, MD 21401
Richard Silberglitt
Affiliation:
Technology Assessment and Transfer Inc., Annapolis, MD 21401
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Abstract

Coupling of the input power to a dielectric in a rectangular microwave cavity by using a compound iris having both inductive and capacitive slits, has been investigated. The compound iris is used in combination with a variable tuning plunger to maintain a resonant frequency of 2.45 GHz and minimize the reflected power. Under certain conditions, the compound iris has been observed to achieve an improved coupling of the input power, resulting in higher temperature of cylindrical 0.95 cm rods of silicon carbide (SiC) and alumina (A12O3). By placing the SiC perpendicular to the applied E field (with SiC enclosed in a porous insulation partially filling the applicator), coupling with the compound iris by adjusting both inductive and capacitive slits was achieved for a wide range of values compared to the use of a single pair of inductive slits. The coupling was more sensitive to a precise positioning of the single inductive slit. Such a difference was not observed for the case where the sample was placed parallel to the E field. In temperatures over 1600°C have been reached with a 600 W of power injected into the cavity. In tests with low loss alumina samples (99.8% pure) placed parallel to the E field, the compound iris permitted a greater coupling and higher temperature. The presence of alumina insulation had a significant effect in achieving higher temperatures, and occassionally preventing the initiation of arcing.

Type
Research Article
Copyright
Copyright © Materials Research Society 1992

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References

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