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IETE Journal of Research Volume 21, 1975 - Issue 8
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Original Articles

Some Experimental Results on Beam Transmission and Noise from Kino Guns with Tilted Cathodes

M. L. SisodiaDepartment of Physics, University of Rajasthan, Jaipur.
(Associate Member) &
R. P. WadhwaBharat Electronics Ltd., Bangalore.
(Member)
Pages 425-430 | Received 05 Jun 1974, Published online: 11 Jul 2015

REFERENCES

  • Wadhwa (RP) and Van Duzer (T). A 3.5 dB Noise Figure S-Band, Medium Power, Forward Wave Injected-Beam Crossed-Field Amplifier. Proc. IEEE. 53, 4; 1965; 425.
  • Wadhwa (RP) and Van Duzer (T). LOW Noise Measurements in an Injected-Beam Medium-Power Crossed-Field Amplifier. International Jour, of Electronics, (to appear).
  • Mantena (NR) and Van Duzer (T). Crossed-Field Noise-Figure Studies. Jour, of Electronics & Control., 17; Nov. 1964; 497–511.
  • Van Duzer (T), Mantena (NR) and Sasaki (S). Crossed- Field Noise-Figure Studies: Guns and Transducers-Proc. Fifth International Congress, Microwave Tubes, Paris, 1965; Academic Press, New York, p 11–14.
  • Sisodia (ML) and Gandhi (OP). A Study of Noise Behaviour of Grossed-Field Electron Guns. Proc. Sixth International Conference on Microwave and Optical Generation and Amplification. Cambridge, 1966, 214–219.
  • Sisodia (ML). Noise Suppression in Crossed-Field Guns”. Tech. Report, CEERI, Pilani, January, 1968.
  • Kino (GS). A Design Method for Crossed-Field Electron Guns, IRE Trans, election devices, ED-7, 3; 1960; 179–185.
  • Llewellyn (FB), Electron Inertia Effects. 1939 Cambridge Univ. Press, New York.
  • Llewellyn (FB) and Peterson (LC). Vacuum-Tube Networks Proc. IRE, 32, March, 1944; 144–146.
  • Van Duzer (T). Transformation of Fluctuations along Accelerated Crossed-Field Beams. IRE Trans, electron devices. ED-8., 1; 1961; 78–86.
  • Wadhwa (RP) and Harris (RD). Transformation of Beam Fluctuations along Magnetron-Injection Beams. IEEE Trans, electron devices, ED-12, June, 1965, 332–343.
  • Wadhwa (RP). Noise in Magnetron-Injection Guns. Proc. IEEE, 52, 1; 1964; 79.
  • Prommer (AJ). Private communication.
  • Konrad (GT). Noise Measurements on a Magnetron Injection Gun. IEEE Trans, on Electron Devices. ED-14 7, 1967; 365–368.
  • Sisodia (ML) and Wadhwa (RP). Noise Reduction in Crossed-Field Guns by Cathode Tilt, (to be published).
  • Wadhwa (RP). Diocotron Gain Reduction and Space Charge Smoothing in Crossed-Field Guns Proc. IEEE, 52, 3; 1964; 315–316.
  • Miller (MH) and Dow (WG). Experimental Study of Anomalous Electron Stream Behaviour. Jour, of Appl. Phys. 32, 2; 1961; 274–281.
  • Arnaud (J) Study of Noise in M-Type Carcinotrons Beam Instability Problem, CSF Report, W. R. 7–34, CSF- Raytheon Contract No. 20, Quarterly Rpt; April-June, 1961.
  • Epsztein (B). QK603 Final Engineering Report on Research and Development of Crossed E-H Field Microwave Tubes, Raytheon Manufacturing Co., CSF-Raytheon Contract No. 12; July, 1958.
  • Wadhwa (RP). Research on Noise in Crossed-Field Guns, Final Report Research Laboratory, Electron Tubes Division, Litton Industries, San Carlos, Calif. July 31, 1965.
  • Arnaud (J) and Doehler (O). Study of Noise in Crossed- Field Guns. Jour Appl. Phys. 33, 1962; 234.
  • Wadhwa (RP). Noise Transport in Crossed-Field Devices. Tech. Report No. 57, Electron Physics Laboratory, Electrical Engineering Department, The Univ. of Nichigan, Ann Arbor, Mich. December, 1962.
  • Wadhwa (RP) and Rowe (JE). Evaluation of the D-C Parameters and Noise Transport in the Gun Region of an Injected-Beam Crossed-Field Diode. IEEE Trans. Electron Devices, ED-11, November, 1964; pp. 170–180.
  • Pollack (MA) and Whinnery (JR). Noise Transport in the Crossed-Field Diode. IEEE Trans. Electron Devices, ED-11, 3; 1964; pp. 81–89.
  • Wadhwa (RP). A Modified Short Kino Gun for LowNoise Operation. Journal of Electronics and Control, 17, 3, 1964; 257–265.
  • Damon (L). Private Communication, July 1973.
  • Hintringer (O), Potzl (H), and Richter, Electro-nenkanoen Zur Ergengung Laminarer M-Strahlen, Archiv Der Elektrischen Ubertragung, 20, 6; 1966; 336–342.
  • Ibid., 421–426.

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