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Journal of Microwave Power Volume 16, 1981 - Issue 2
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Original Articles

Evaluation and Survey of Microwave and Radiofrequeticy Applicators

G. KantorDivision of Electronic Productsng, ureau of Radiological Health FDA, 5600 Fishers Lane, Rockville, MD 20857, USA
Pages 135-150 | Received 27 Apr 1981, Published online: 17 Jun 2016

Citations (40)

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Read on this site (12)

G. C. Van Rhoon, P. J. M. Rietveld & J. Van Der Zee. (1998) A 433 MHz Lucite Cone waveguide applicator for superficial hyperthermia. International Journal of Hyperthermia 14:1, pages 13-27.
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T. P. Ryan, V. L. Backus & C. T. Coughlin. (1995) Large stationary microstrip arrays for superficial microwave hyperthermia at 433 MHz: SAR analysis and clinical data. International Journal of Hyperthermia 11:2, pages 187-209.
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M. Kikuchi, Y. Amemiya, S. Egawa, Y. Onoyama, H. Kato, H. Kanai, Y. Saito, I. Tsukiyama, M. Hiraoka, S. Mizushina, T. Yamashita, Y. Nikawa, J. Matsuda & M. Miyakawa. (1993) Guide to the use of hyperthermia equipment. 2. Microwave heating. International Journal of Hyperthermia 9:3, pages 341-360.
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E. J. Gross, T. C. Cetas, P. R. Stauffer, R.-L. Liu & M. L. D. Lumori. (1990) Experimental assessment of phased-array heating of neck tumours. International Journal of Hyperthermia 6:2, pages 453-474.
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T. Matsuda, S. Takatsuka, Y. Nikawa & M. Kikuchi. (1990) Heating characteristics of a 430 MHz microwave heating system with a lens applicator in phantoms and miniature pigs. International Journal of Hyperthermia 6:3, pages 685-696.
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Y. Nikawa, M. Kikuchi, T. Terakawa & T. Matsuda. (1990) Heating system with a lens applicator for 430 MHz microwave hyperthermia. International Journal of Hyperthermia 6:3, pages 671-684.
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G. P. Rine, T. V. Samulski, W. Grant & C. A. Wallen. (1990) Comparison of two-dimensional numerical approximation and measurement of SAR in a muscle equivalent phantom exposed to a 915 MHz slab-loaded waveguide. International Journal of Hyperthermia 6:1, pages 213-225.
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Richard L. Magin & Andrew F. Peterson. (1989) Invited review: Noninvasive microwave phased arrays for local hyperthermia: A review. International Journal of Hyperthermia 5:4, pages 429-450.
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M. D. Sapozink, T. Cetas, P. M. Corry, M. J. Egger & P. Fessenden. (1988) Introduction to hyperthermia device evaluation. International Journal of Hyperthermia 4:1, pages 1-15.
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K. B. Ocheltree & L. A. Frizzell. (1987) Determination of power deposition patterns for localized hyperthermia: A steady-state analysis. International Journal of Hyperthermia 3:3, pages 269-279.
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P. Nilsson, T. Larsson & B. Persson. (1985) Absorbed power distributions from two tilted waveguide applicators. International Journal of Hyperthermia 1:1, pages 29-43.
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G. Kantor & D. M. Witters. (1983) The Performance of a New 915-MHz Direct Contact Applicator with Reduced Leakage. Journal of Microwave Power 18:2, pages 133-142.
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Articles from other publishers (28)

David C. Weber & Kurtis M. Hoppe. 2011. Physical Medicine and Rehabilitation. Physical Medicine and Rehabilitation 449 467 .
C. Rappaport. (2002) Treating cardiac disease with catheter-based tissue heating. IEEE Microwave Magazine 3:1, pages 57-64.
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Bryan R. Leigh, Baldassarre Stea, J.Robert Cassady, John Kittelson & Thomas C. Cetas. (1994) Clinical hyperthermia with a new device: The current sheet applicator. International Journal of Radiation Oncology*Biology*Physics 30:4, pages 945-951.
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Grant P. Rine, Mark W. Dewhirst, Edwin D. Cobb, Scott T. Clegg, Edward N. Coleman, Thaddeus V. Samulski & C.Anne Wallen. (1992) Feasibility of estimating the temperature distribution in a tumor heated by a waveguide applicator. International Journal of Radiation Oncology*Biology*Physics 23:5, pages 1009-1019.
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Ryoji Tanaka, Yoshio Nikawa, Fumiaki Okada & Shinsaku Mori. (1991) A Dielectric Rod Waveguide for Hyperthermia Application. A Dielectric Rod Waveguide for Hyperthermia Application.
Y. Nikawa & F. Okada. (1991) Dielectric-loaded lens applicator for microwave hyperthermia. IEEE Transactions on Microwave Theory and Techniques 39:7, pages 1178-1178.
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R H Johnson, A W Preece & J L Green. (1990) Theoretical and experimental comparison of three types of electromagnetic hyperthermia applicator. Physics in Medicine and Biology 35:6, pages 761-779.
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T.V. Samulski, P. Fessenden, E.R. Lee, D.S. Kapp, E. Tanabe & A. McEuen. (1990) Spiral microstrip hyperthermia applicators: Technical design and clinical performance. International Journal of Radiation Oncology*Biology*Physics 18:1, pages 233-242.
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Haim I. Bicher, Samuel A. Afuwape, Ralph S. Wolfstein, Duane F. Bruley & Kenneth Reesman. 1990. Consensus on Hyperthermia for the 1990s. Consensus on Hyperthermia for the 1990s 327 344 .
R.H. Johnson, A.W. Preece & J.L. Murfin. (1988) Flexible electromagnetic hyperthermia applicator. Flexible electromagnetic hyperthermia applicator.
Chun Y. Moon, Gideon Kantor, T. Whit Athey & Henry S. Ho. (1988) Comparative study of shortwave heating patterns in phantoms with polyethylene and silk partitions. Bioelectromagnetics 9:1, pages 79-85.
Crossref
R.H. Johnson, A.W. Preece, J.W. Hand & J.R. James. (1987) A New Type of Lightweight Low-Frequency Electromagnetic Hyperthermia Applicator. IEEE Transactions on Microwave Theory and Techniques 35:12, pages 1317-1321.
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Y. Nikawa & F. Okada. (1987) Selective heating for microwave hyperthermia using ferrimagnetic resonance. IEEE Transactions on Magnetics 23:5, pages 2431-2433.
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J Conway & A P Anderson. (1986) Electromagnetic techniques in hyperthermia. Clinical Physics and Physiological Measurement 7:4, pages 287-318.
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Yoshio Nikawa & Fumiaki Okada. (1986) Dielectric Loaded Microwave Lens Applicator for Effective Hyperthermia Treatment. Dielectric Loaded Microwave Lens Applicator for Effective Hyperthermia Treatment.
Y. Nikawa, T. Katsumata, M. Kikuchi & S. Mori. (1986) An Electric Field Converging Applicator with Heating Pattern Controller for Microwave Hyperthermia. IEEE Transactions on Microwave Theory and Techniques 34:5, pages 631-635.
Crossref
Y. Nikawa, H. Watanabe, M. Kikuchi & S. Mori. (1986) A Direct-Contact Microwave Lens Applicator with a Microcomputer-Controlled Heating System for Local Hyperthermia. IEEE Transactions on Microwave Theory and Techniques 34:5, pages 626-630.
Crossref
Y. Nikawa, M. Kikuchi & S. Mori. (1985) Development and Testing of a 2450-MHz Lens Applicator for Localized Microwave Hyperthermia (Short Paper). IEEE Transactions on Microwave Theory and Techniques 33:11, pages 1212-1216.
Crossref
Y. Nikawa, Y. Takahashi, H. Watanabe, M. Kikuchi & S. Mori. (1985) Microwave Heating System Using Lens Applicator for Localized Hyperthermia. Microwave Heating System Using Lens Applicator for Localized Hyperthermia.
Y. Takahashi, Y. Nikawa, T. Katsumata, S. Mori, M. Nakagawa & M. Kikuchi. (1985) Direct Contact Applicator with Convergent Effect of EM Field for Microwave Hypertrermia. Direct Contact Applicator with Convergent Effect of EM Field for Microwave Hypertrermia.
A.W. Guy. (1984) History of Biological Effects and Medical Applications of Microwave Energy. IEEE Transactions on Microwave Theory and Techniques 32:9, pages 1182-1200.
Crossref
Walter Gee, Shung-Wu Lee, Nelson K. Bong, Charles A. Cain, Raj Mittra & Richard L. Magin. (1984) Focused Array Hyperthermia Applicator: Theory and Experiment. IEEE Transactions on Biomedical Engineering BME-31:1, pages 38-46.
Crossref
Reg H. Johnson, J. R. James, J. W. Hand, J. W. Hopewell, Peter R. C. Dunlop & Robert J. Dickinson. (1984) New Low-Profile Applicators for Local Heating of Tissues. IEEE Transactions on Biomedical Engineering BME-31:1, pages 28-37.
Crossref
P.F. Turner. (1983) Comments on "Capabilities of Multi-Applicator Systems for Focused Hyperthermia". IEEE Transactions on Microwave Theory and Techniques 31:10, pages 851-852.
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R. Knoechel. (1983) Capabilities of Multiapplicator Systems for Focussed Hyperthermia. IEEE Transactions on Microwave Theory and Techniques 31:1, pages 70-73.
Crossref
G. Kantor & C.Y. Moon. (1983) The Performance of Inductive Shortwave Diathermy Applicators. The Performance of Inductive Shortwave Diathermy Applicators.
E. Tanabe, A. McEuen, C.S. Norris, P. Fessenden & T.V. Samulski. (1983) A Multi-Element Microstrip Antenna for Local Hyperthermia. A Multi-Element Microstrip Antenna for Local Hyperthermia.
Yoshio Nikawa, Masanobu Iwamoto, Shinsaku Mori & Makoto Kikuchi. (1983) Waveguide applicator with convergent lens for localized microwave hyperthermia. Electronics and Communications in Japan (Part I: Communications) 66:8, pages 91-98.
Crossref

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