References
- Bassen H., Swicord M., Abita J. A miniature broad-band electric field probe. Annals of the New York Academy of Sciences 1977; 247: 481–486
- Batchman T. E., Gimpelson G. An implantable electric field probe of submillimeter dimensions. IEEE Transactions on Microwave Theory and Technique 1983; 31: 745–751
- Chen K., Rukpollmuang S., Nyquist D. P. Measurement of induced field in a phantom model of man. Radio Science 1982; 17: 49s–59s
- Chou C. K., Guy A., McDougall J. A., Dong A., Luk K. H. Thermographically determined specific absorption rate patterns of 434-MHz applicators. Medical Physics 1986; 13: 385–390
- Gajda G., Stuchly M. A., Stuchly S. S. Mapping of the near-field pattern in simulated biological tissues. Electronics Letrers 1979; 15: 120–121
- Guru B. S., Chen K. M. Experimental and theoretical studies on electromagnetic fields induced inside finite biological bodies. IEEE Transactions on Microwave Theory and Techniques 1976; 24: 433–440
- Guy A. W. Analyses of electromagnetic fields in biological tissues by thermographic studies on equivalent phantom models. IEEE Transactions on Microwave theory and Techniques 1971; 19: 205–214
- Hagmann M. J., Levin R. L., Turner P. F. A comparison of the annular phased array to helical coil applicators for limb and torso hyperthermia. IEEE Transactions on Biomedical Engineering 1985; 32: 916–926
- Ho H. S., Faden J. Experimental and theoretical determination of absorbed microwave dose rate distributions in phantom heads irradiated by an aperture source. Health Physics 1977; 33: 13–21
- Hyzer W. G. Instant imaging of the electric radio and acoustic field. Optical Engineering, SPIE Report 1978; 17: 3–5, SR
- Kebbel W., Krause W., Paetzold J. Energieverteilung in Fett-Muskel-Schichten bei Behandlung mit laengeren Dezimeterwellen im Vergleich mit den bisher in der Therapie angewendeten Hochfrequenzverfahren. Elektromedizin 1964; 9: 171–179
- Nilsson P., Person B. Computer-controlled microwave system for clinical hyperthermia. Physical Medicine and Biology 1985; 30: 283–292
- Preece A. W., Murfin J. L., Johnson R. H. RF field penetration from electrically small hyperthermia applicators. Physical Medicine and Biology 1987; 32: 1595–1601
- Turner P. F. Regional hyperthermia with an annular phased array. IEEE Transactions on Biomedical Engineering 1984; 31: 106–114
- Turner P. F. Operational and clinical aspects of the BSD-2000 hypertherrnia system. Presented at the symposium: ‘Deep local and regional hyperthermia”, Essen, April, 1988
- Van Dijr J. D. P., Gonzalez Gonzalez D., Blank L. E. C. M. Deep local hypertherniia with a lour aperture array system of large waveguide radiators. Results of simulation: ind clinical application. Hyperthermic Oncology 1988, T. Sugahara, M. Saito. Taylor & Francis, London 1989; Vol. 1: 573–575
- Van den Berg P. M., De Hoop A. T., Segal A., Praagman N. A computational model of the electromagnetic heating of biological tissue with application to hyperthermic cancer therapy. IEEE Transuctions on Biomedical Engineering 1983; 30: 797–805
- Witters D. M., Kantor G. An evaluation of microwave diathermy applicators using a free space electric field mapping. Physical Medicine and Biology 1981; 26: 1099–1114