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IETE Journal of Research Volume 24, 1978 - Issue 10-11
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Original Articles

Crossed-Field Microwave Devices

R. P. WadhwaNational Physical Laboratory, Hillside Road, New Delhi110 012.View further author information
(Member)
Pages 418-437 | Received 12 Sep 1978, Published online: 11 Jul 2015

REFERENCES

  • Okress (E). Crossed-Field Microwave Devices, Vols. and 2, Academic Press, New York and London.
  • Raytheon Company, Application Engineering Department Technical Information Bulletins and Product Manual.
  • Litton Crossed-Field Amplifier-Characteristics and Applications, and also Product Manual.
  • Sfd Laboratories, Inc., Introduction to Pulsed Crossed-Field Amplifiers and also Product Manual.
  • Skowron (J F). The Continuous Cathode (Emitting-Sole) Crossed-Field Amplifiers. Proc. IEEE. 61, 3; 1973; 330–356.
  • Kaisel (S F). Microwave Tube Technology Review. Micro wave Journal. July 1977, 24–42.
  • Private Communication from Varian.
  • Wadhwa (RP) and Van Duzer (T). A 3.5-dB Noise Figure, 5-Band, Medium-Power, Forward-Wave, Injected- Beam Crossed-Field Amplifier. Proc. IEEE. 53, 4, 1965; 425–426.
  • Wadhwa (R P) and Van Duzer (T). Low-Noise Measurements on an Injected-Beam Medium-Power Crossed-Field Amplifier. International Journal of Electronics. 23, 2; 1968; 135–152.
  • Osepehuk (J M). Life Begins at Forty—Microwave Tubes. Raytheon Research Division, Waltham, Mass.
  • Varian Microwave Spectrum Chart.
  • Osepehuk (J M). Why Tubes for Microwave Power Generation in Array Systems. Microwave Journal. September, 1968, 51–58.
  • Bates (DJ) and Silzars (A). Electron-Bombarded Semi conductor Devices. Proc. IEEE. 62, 8; 1974.
  • Das (DK) and Harrold (WJ). Characterizatin of Samarium-Cobalt TWT Magnets. IEEE Trans. MAG-7, 1971; 281–285.
  • Hechtel (RD). Various Papers on Electrostatic Focussed Klystrons, Litton Industries.
  • Sterzer (F). Improvement of Travelling-Wave Tube Efficiency Through Collector Potential Depression. IEEE Trans. ED-5, 1958; 300–305.
  • Shaw (E K). Efficiency Enhancement CFAs through Collector Depression. Litton Industries Rpt. 1966.
  • Luebke (W) and Caryotakis. Development of a One- Megawatt CW Klystron. Microwave Journal. 9, August 1966.
  • Showron (JF), Brown (WC) and Mac Master (G H). The Super-Power Amplitron. Microwave Journal. 7, October 1964; 65–69.
  • Twistleton (J R G). Twenty-Kilowatt 180 mc/s Continuous-Wave Magnetron. Proc. IEEE. 54, 1; 1964; 51–56.
  • Cleeton (EE) and Williams (NH). The Shortest Continuous Waves. Physics Review. 50, 1936; 1091.
  • Flyagin (V A), Gaponov (A V) Petelin (M I) and Yulpatov (VK). The Gyrotron. IEEE Trans. MTT-25, June 1977; 514–521.
  • Tallerico (PJ). The Gyrotron, A Deflection—Modulated, High-Power Microwave Amplifier. Los Alamos Scientific Laboratory, Rpt. No. LA-6907, October 1977.
  • Wadhwa (RP). Personal Notes.
  • Barker (GG). C. F. A. or T. W. T.? Which Valve Will Best Meet Your Transmitter Output Stage Requirements. Proceedings of IEE Conference on Radar—Present and Future, UK, 1973, 189–194.
  • Sidhu (G S) and Wadhwa (R P). A Wide Dynamic Range Crossed-Field Gun. Int. Journal of Electronics. 23, 2; 1968; 153–162.
  • Sidhu (G S) and Wadhwa (R P). Amplitude and Frequency Modulation Using a Wide-Dynamic Range Injected-Beam Crossed-Field Gun. International Journal of Electronics, 23, 6; 1967; 511–517.
  • Okress (E), et al. Microwave Power Engineering. IEEE Spectrum. 1, October 1964.
  • Wadhwa (R P) and Misra (V K). Some Considerations for Reduction of Noise and Instability Improvement in High Power Crossed-Field Devices. IEEE Trans. ED-16, 12; 1969a; 977–985.
  • Gould (R W). Space-Charge Effects in Beam Type Magnetrons. Jour. App. Phys. 28, 1957; 594–604.
  • Pokorney (GE), Kushnik (AE) and Hull (J F). The Dematron—A New Crossed-Field Amplifier. IRE Trans. ED-9, July 1962; 337–345.
  • Raytheon Company, Research on Distributed Ferrites for Crossed-Field Microwave Devices, Quarterly and Final reports, 1966–68.
  • Shaw (E K). Improvements in Crossed-Field Devices, Litton Industries Reports, 1965–67.
  • Wadhwa (R P). Gain Improvement by Using a Sole Slow- Wave Structure. Invention Disclosure, Litton Industries, 1963.
  • Willshaw (W), Mourier (G) and Guilbaud (G). The Electronic Resonance Effect in Crossed-Field Valves. 1956 Proc. International Conference, Microwave Tubes, Paris.
  • Pollack (M A) and Whinnery (J R). Noise Transport in The Crossed-Field Diode. IEEE Trans. ED-11, March 1964; 81–89.
  • Rowe (J E) and Wadhwa (R P). Transmission-Line Analogs of Crossed-Field Space-Charge Flows. Jour. App. Physics. 36, 1; 1965; 9–14.
  • Mantenna (NR) and Van Duzer (T). Low Noise and Space-Charge Smoothing in a Crossed-Field Amplifier. Proc. IEEE. 51, 11; 1963; 1662–1663.
  • Wadhwa (R P). Diocotron Gain Reduction and Space Charge Smoothing in Crossed-Field Guns. Proc. IEEE. 52, 3; 1964.
  • Wadhwa (R P). Investigation of Crossed-Field Instability. Unpublished Work.
  • Misra (VK). and Wadhwa (R P). Coupled-Mode Theory of the Crossed-Field Instability. Proc. IEEE. 57, 5; 1969; 828–829.
  • Wadhwa (R P), Misra (V K) and Sidhu (G S). Studies Related to Noise and Instability Improvement and Gun Designs in High-Power Crossed-Field Devices. Proc. International MOGA Conference, Amsterdam, 1970.
  • Misra (V K) and Wadhwa (R P). Design Considerations for Improved Efficiency Characteristics of M-Type Backward- Wave Oscillators. IEEE Trans. ED-18, 1; 1971; 35–41.
  • Sisodia (ML), Gandhi (O P) and Wadhwa (RP). Sup pression of Crossed-Field Noise by Lateral and Transverse Magnetic Fields. Int. Journal of Electronics. 22, 6; 1967; 575–579.
  • Sisodia (ML) and Wadhwa (RP). Noise Reduction in Crossed-Field Guns by Cathode Tilt. Proc. IEEE. 56, 1; 1968; 94–95.
  • Sisodia (M L) and Wadhwa (R P). Some Experimental Results on Beam Transmission and Noise from Kino Guns with Tilted Cathodes. Jour, of the Inst, of Elect, and Telecom. Ergs. 21; 8; 1975; 524–530.
  • Wadhwa (RP). Noise in Magnetron Injection Guns: Proc. IEEE. 52, 1; 1964.
  • Damon (L), Nicholls (N S) and Scoffield (B P). Noise Reduction in High-Power Injected-Beam Crossed-Field Amplifiers by Use of a Curved Magnetic Field. Private Communication.
  • Sidhu (G S) and Wadhwa. (R P). Noise Reduction in Kino Guns and on Increasing Their Dynamic Range. Proc. IEEE. 88, 5; 1970; 825–826.
  • Herold (EW). The Future of the Electron Tubes. IEEE Spectrum. 2, 1; 1965; 50–58.
  • Moor (F B). Microwave Diathermy, in Therapuetic Heat and Cold, (S. Licht, Editor), Waverly Press, Baltimore, 1965.
  • Spencer (P L). Method of Treating Food Stuffs. U. S. Patent No. 2,495,429, January 24, 1950 (Field October 8, 1945).
  • Jenny (HK). Electron Tubes, A Technology Forecast, Technology Trends. IEEE N. Y. 1975.
  • Butler (N). The Climate is Changing in M/W Tube R&D—Can We Survive? Microwave Journal. 18, 8; 1975; 12–16.
  • Kodali (V P). Private Communication.
  • Forman (R). Surface Studies of Barium and Barium-Oxide on Tungsten and Its Application to Understanding the Mechanism of Operation of an Impregnated-Tungsten Cathode. Jour App. Physics. 47, 12: 1976; 5272–5279.
  • Yu (S P), Kooyers (GP) and Buneman (O). Time Dependent Computer Analysis of Electron-Wave Interaction in Cross- ed-Fields. Jour App. Physic. 36, 1965; 2550–2559.

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