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IETE Journal of Research Volume 31, 1985 - Issue 5
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Letters to the Editor

Theoretical Mode-Gain in a Non-Intercepting Gridded Dual-Mode Broadband Helix TWT

Ved P. SinghCentre of Research in Microwave Tubes, Department of Electronics Engineering, Institute of Technology, Banaras Hindu University, Varanasi221 005
,
B.N. BasuCentre of Research in Microwave Tubes, Department of Electronics Engineering, Institute of Technology, Banaras Hindu University, Varanasi221 005
&
R.K. JhaCentre of Research in Microwave Tubes, Department of Electronics Engineering, Institute of Technology, Banaras Hindu University, Varanasi221 005
Pages 180-183 | Received 19 Nov 1984, Published online: 02 Jun 2015

REFERENCES

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  • B.J. Hamak & J.R. Hechtel, Dual-mode operation of a high power PPM-focussed TWT, IEDM Tech. Dig. pp 138–141, 1975.
  • D. Henry, A Pelletier & R. Strauss, A tripple power mode advanced 11 GHz TWT, in Proc 7th European Microwave Conf. (Denmark), Sept 5–8, 1977, pp 231–236.
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  • J.L. Putz & M.J. Cascone, Effective use of aespersion shaping in broad-band helix TWT circuits, IEDM Tech Dig, pp 422–424, 1979.
  • B.N. Bisu, B.B. Pal, V.N. Singh & N.C. Vaidya, Optimum design of a potentially dispersion free helical slow-wave circuit of a broadband TWT, IEEE Trans, vol MTT-32, pp 461–463, Apr 1984.
  • B.N. Basu & A.K. Sinha, Dispersion shaping using an inhomogeneous dielectric support for the helix in a travelling-wave tubes, Int J Electronics, vol 50, pp 235–238, Mar 1981.
  • M.J. Rymer & M.J. Cascone, 3 octaves with one TWT, Int. Electron Devices Meet, 1982, San Francisco, 13–15, Dec 1982.
  • C.Y. Chen, Characteristic of vane-loaded helix slow-wave structure NIG-Fachber (Germany), vol 85, pp 27–31, 1983.
  • J.R. Pierce, Travelling-wave tubes, D. van Nostrand Co Inc, New York, 1950.

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