University of Maryland

Microwave Processing Laboratory
Institute for Plasma Research

Publications

  1. J.P. Calame, A. Birman, Y. Carmel, D. Gershon, B. Levush, A.A. Sorokin, V.E. Semenov, D. Dadon, L.P. Martin, and M. Rosen, "A dielectric mixing law for porous ceramics based on fractal boundaries," J. Appl. Phys., Vol. 80, No. 7, pp. 3992-4000, 1996.

  2. J.P. Calame, Y. Carmel, D.L. Gershon, and M. Rosen, "Predicting the Dielectric Properties of Mixtures: A Practical Engineering Approach," First World Congress on Microwave Processing, January 1997.

  3. J.P. Calame, K. Rybakov, Y. Carmel, and D.L. Gershon, "Predicting the Dielectric Properties of Mixtures: A Practical Engineering Approach," First World Congress on Microwave Processing, January 1997.

  4. D. Gershon, O. Wilson, J. Calame, Y. Carmel, and I. Lloyd, "The Role of Microstructure Modification on Dielectric Mixing Laws," poster presentation at American Ceramic Society Annual Meeting, May, 1998.

  5. D. Gershon, J. Calame, Y. Carmel, and T. Antonsen, "Complex Permittivity Measurements at Elevated Temperatures of Zinc Oxide Sintered in Conventional and Microwave Furnaces," poster presentation at First World Congress on Microwave Processing, 1997.

  6. D. Gershon, J. Calame, Y. Carmel, and T. Antonsen, "Complex Permittivity Measurements for High-Temperature and Broad Band Dielectric Measurements," American Ceramic Society Annual Meeting 1998.

  7. D. Gershon, J. Calame, Y. Carmel, and T. Antonsen, "Complex Permittivity Measurements for High-Temperature and Broad Band Dielectric Measurements," accepted for publication in IEEE MTT.

  8. A. Birnboim and Y. Carmel, "Modeling the Heat Wave Generated During Microwave Heating of Powdered Zinc Oxide in Nitrogen Atmosphere," American Ceramic Society Annual Meeting, May, 1998.

  9. A. Birman, B. Levush, Y. Carmel, D. Gershon, D. Dadon, L.P. Martin, and M. Rosen, "Modeling of Multi-Frequency Microwave Sintering of ZnO Ceramic," pp. 305-312 in Ceramic Transactions, Vol. 59, Microwaves: Theory and Application in Materials Processing III, edited by D.E. Clark, D.C. Folz, S.J. Oda, and R. Silberglitt, American Ceramic Society, Westerville, OH, 1995.

  10. J.P. Calame, K. Rybakov, Y. Carmel, D. Gershon, "Electric Field Intensification in Spherical Neck Ceramic Microstructures During Microwave Sintering," First World Congress on Microwave Processing, 1997.

  11. A. Birnboim, Y. Carmel, and J.P. Calame, "Focusing, Field Intensification and Polarization Effects in Spherical Necks Ceramic Microstructures During Microwave Processing," submitted for publication.

  12. E. Pert, J. Calame, D. Gershon, and Y. Carmel, "Pyrometric Temperature Control System for Microwave Processing of Materials," poster presentation at American Ceramic Society Annual Meeting, May, 1998.

  13. E. Pert, Master Thesis, University of Maryland, December 1998.

  14. O. Wilson, Jr. and D. Gershon, "Copper Oxide Based Surface Modification Agent," American Ceramic Society Annual Meeting, May, 1998.

  15. A. Birnboim, D. Gershon, J. Calame, A. Birman, Y. Carmel, J. Rodgers, B. Levush, Y.V. Bykov, A.G. Eremeev, V.V. Holoptsev, V.E. Semenov, D. Dadon, L.P. Martin, M. Rosen, R. Hutcheon, and D. Abe, "Comparative Study of Microwave Sintering of Zinc Oxide at 2.45, 30 and 83 GHz," J. Am. Ceram. Soc., 1493-1499, 1997.

  16. D. Dadon, L.P. Martin, M. Rosen, A. Birman, D. Gershon, J.P. Calame, B. Levush, and Y. Carmel, "Temperature and Porosity Gradients Developed During Non-isothermal Microwave Processing of Zinc Oxide," J. Mater. Synth. Process. 4 [2] 95-103, 1996.

  17. L.P. Martin, D. Dadon, M. Rosen, A. Birman, D. Gershon, J.P. Calame, B. Levush, Y. Carmel, "Temperature Gradients and Residual Porosity in Microwave Sintered Zinc Oxide," pp. 579-584 in Materials Research Society, Vol. 430, Microwave Processing of Materials V, edited by M. Iskander, J. Kiggans, J.C. Bolomey, 1996.

  18. L.P. Martin, D. Dadon, M. Rosen, D. Gershon, A. Birman, B. Levush, and Y. Carmel, "Characterization of Microwave Processed ZnO," pp. 399-407 in Ceramic Transactions, Vol. 59, Microwaves: Theory and Application in Materials Processing III, edited by D.E. Clark, D.C. Folz, S.J. Oda, and R. Silberglitt, American Ceramic Society, Westerville, OH, 1995.

  19. L.P. Martin, D. Dadon, M. Rosen, D. Gershon, A. Birman, B. Levush, and Y. Carmel, "Ultrasonic and Dielectric Characterization of Microwave-Sintered and Conventionally Sintered Zinc Oxide," J. Am. Ceram. Soc. 79 [10] 2652-2658, 1996.

  20. D. Dadon, D. Gershon, Y. Carmel, K. Rybakov, R. Hutcheon, A. Birman, L.P. Martin, J. Calame, B. Levush, M. Rosen, "Observation of an Electromagnetically Driven Temperature Wave in Porous Zinc Oxide During Microwave Sintering," pp. 507-512 in Materials Research Society, Vol. 430, Microwave Processing of Materials V, edited by M. Iskander, J. Kiggans, J.C. Bolomey, 1996.

  21. L.P. Martin, D. Dadon, M. Rosen, D. Gershon, K. Rybakov, A. Birman, J. Calame, B. Levush, Y. Carmel, R. Hutcheon, "Effects of Anomalous Permittivity on the Microwave Heating of Zinc Oxide," J. Appl. Phys., Vol. 83, pp. 432-437, 1998.

  22. D. Gershon, Ph.D. Dissertation, University of Maryland, May 1999.

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