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).