Title :
Use of a microwave cavity for sensing dielectric properties of arbitrarily shaped biological objects
Author :
Kraszewski, Andrezej W. ; Nelson, Stuart O. ; You, Tian-Su
Author_Institution :
US Dept. of Agric., Athens, GA, USA
fDate :
7/1/1990 12:00:00 AM
Abstract :
A rectangular waveguide resonator operating in the H105 mode at 3.2 GHz is used in determining the change in resonant frequency, ΔF, and the Q factor of the cavity, ΔT , when measured with and without single corn kernels of various shapes and dimensions. By measuring those variables for a kernel oriented in two positions differing by a 90° rotation with respect to the maximum E-field vector, the average values of ΔF and ΔT are found to be independent of shape. The ratio ΔF/ΔT is independent of size and is a function of the material properties (ε\´-1)/ε". This function is shown to be related to the material density, moisture content, or other characteristics when all other properties except the one selected remain unchanged
Keywords :
Q-factor measurement; biological techniques and instruments; cavity resonators; microwave measurement; 3.2 GHz; Q factor; arbitrarily shaped biological objects; average values; dielectric properties; material density; material properties; maximum E-field vector; microwave cavity; moisture content; rectangular waveguide resonator; resonant frequency; single corn kernels; Dielectrics; Frequency measurement; Kernel; Position measurement; Q measurement; Rectangular waveguides; Resonant frequency; Rotation measurement; Shape measurement; Waveguide transitions;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
