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IETE Journal of Research Volume 21, 1975 - Issue 9
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Original Articles

Propagation Characteristics of Longitudinally Magnetized Semiconductor Filled Waveguide Including the Effect of Drift and Diffusion

P. N. GuptaElectronics and Radio Physics Laboratory, Department of Phsyics, Faculty of Science, BHIF, Varanasi-221 005.
&
S. K. TolpadiElectronics and Radio Physics Laboratory, Department of Phsyics, Faculty of Science, BHIF, Varanasi-221 005.
Pages 486-488 | Received 16 Jan 1975, Published online: 11 Jul 2015

REFERENCES

  • BARLOW (HEM) and KOIKE (R). Microwave propagation in a waveguide containing a semiconductor to which is applied a steady transverse magnetic field, Proc. IEE, 110, 12; 1963; 2177–2181.
  • TODA (M). Propagation in a Solid-State plasma wave guide in a transverse magnetic field. J. Phys. Soc. (Japan). 19, 7; 1964; 1126–1130.
  • HIROTA (R). Theory of solid state plasma waveguide in a transverse magnetic field. J. Phys. Soc. (Japan). 19, 7; 1964; 1130–1134.
  • TODA (M). A new isolator using a solid state plasma wave guide. IEEE Trans. Microwave Theory Tech. MTT-13, 1; 1965; 126–127.
  • TODA (M). Field distribution in a waveguide loaded with a thin plate of n-In Sb. Proc. IEEE. 55, 4; 1967; 589–591.
  • HIROTA (R) and SUZKI (K). Propagation of waves in a bounded solid state plasma in transverse magnetic field. J. Phys. Soc. (Japan). 21, 6; 1966; 1112–1118.
  • SUZUKI (K). Room temperature Solid State plasma non- reciprocal microwave devices. IEEE Trans. Electron Devices. ED-16, 12; 1969; 1018–1021.
  • ENGINEER (MH) and NAG (BR). Propagation of electro magnetic waves in rectangular guides filled with a semiconductor in the presence of a transverse magnetic field. IEEE. Trans, microwave Theory Tech. MTT-13, 5; 1965; 641–646.
  • NEJIB (UR) and RUDSKI (MS). Wave propagation through a highly restrained solid state plasma. Int. J. Electronics. 35, 3; 1973; 353–364.
  • KUNO (HJ) and HERSHBERGER (WD). Solid state plasma controlled non-reciprocal microwave devices. IEEE Trans. Microwave Theory Tech. MTT-14, 1; 1967; 57–58.
  • MCLOED (BR) and MAY (WC). A 35-GHz isolator using a coaxial solid state plasma in a longitudinal magnetic field. IEEE Trans. Microwave Theory Tech. MTT-19, 6; 1971; 510–516:
  • GUPTA (PN) and TOLPADI (SK). Microwavc propagation in a longitudinally magnetized solid-state plasma waveguide. IEEE Trans. Microwavc Theory Tech. (Communicated).

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