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Measurements of Dielectric Properties for Intense Heating Applications

Published online by Cambridge University Press:  10 February 2011

J. M. Borrego
Affiliation:
ECSE Department, Rensselaer Polytechnic Institute, Troy, NY 12180–3590
K. A. Connor
Affiliation:
ECSE Department, Rensselaer Polytechnic Institute, Troy, NY 12180–3590
J. Braunstein
Affiliation:
ECSE Department, Rensselaer Polytechnic Institute, Troy, NY 12180–3590
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Abstract

Dielectric measurements for frequencies in the tens of gigahertz are discussed. Interpretation of measurements obtained for mixtures are presented based on some simple analytical models and finite-element analysis of the wave structure in the measurement apparatus.

Type
Research Article
Copyright
Copyright © Materials Research Society 1996

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References

1. Nelson, S., Lindroth, D., Blake, R., Dielectric properties of selected and purified minerals at 1 to 22 GHz., J. Microwave Power and Electromagnetic Energy 24 (1989) 213220 Google Scholar
2. Parkhomenko, E.I., Electrical Properties of Rocks, Plenum Press (1967)Google Scholar
3. von Hippel, A. R., ed., Dielectric Materials and Applications, John Wiley and Sons, New York (1954).Google Scholar
4. Looyenga, H., Dielectric constants of heterogeneous mixtures, Physica 31 (1965) 401406 Google Scholar
5. Roberts, S. and Hippel, A.von, A New Method for Measuring Dielectric Constant and Loss in the Range of Centimeter Waves, J. Appl. Phys. 17 (1946) 610616.Google Scholar
6. Nelsen, S. O., Stetson, L. E., and Schlaophoff, C. W., A General Computer Progam for Precise Calculation of Dielectric Properties from Short-Circuited-Waveguide Measurements, IEEE Trans. on Instr. and Meas. IM–23, (1974) 455459 Google Scholar
7. Kudra, T., Raghavan, G.S.V., Voort, F.R. van de, Microwave heating of rutile, J. Applied Physics 73 (1993) 45344540 Google Scholar
8. Baker-Jarvis, J., Vanzura, E. J., Kissick, W. A., Improved Technique for Determining Complex Permittivity with the Transmission/Reflection Method, IEEE Trans. on Microwave Theory and Techniques 38 (1990) 10961102 Google Scholar
9. Connor, K., Shin, P., Salon, S., The hybrid finite element-boundary element solutions of waveguide problems, IEEE Trans. on MAG 25 (1989) 39433945 and L. Nicolas, K. A. Connor, S. J. Salon, B. G. Ruth, L. F. Libelo, 2 Dimensional Finite Element Analysis of Open Microwave Devices, Journal de Physique III 2, (1992) 2101–2107.Google Scholar