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IETE Journal of Research Volume 10, 1964 - Issue 9
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Original Articles

Some Design Aspects of Ferrite Isolators

J. K. Sinha
Pages 444-458 | Published online: 21 Aug 2015

REFERENCES

  • Lax, Benjamin & Button, K. G., Microwave Ferrites and Ferrimagnetics (McGraw-Hill Book Co. Inc.), p. 150.
  • Lax, B., “Frequency and loss characteristics of microwave ferrite devices”, Proc. I.R.E., Vol. 44, 1956.
  • Van Vitert, L. G., “Low magnetic saturation ferrites for microwave applications”, J. appl. Phys., 26 (1955), 1289.
  • Schulz-Dubois, F. O., Wheeler, G. J. & Sirvetz, M. H., “Development of a high powdered L-band resonance isolator”, I.R.E. Transaction on Microwave Theory Tech., 6 (1958), 423.
  • Suhl, H., “The non-linear behaviour of ferrites at high microwave signal levels”, Proc. I.R.E., 44 (1956), 1270.
  • Fox, A. G., Miller, S. E. & Weiss, M. T., “Behaviour and applications of ferrites in the microwave region”, Bell Syst. tech. J., 34 (1955), 5.
  • Anderson, W. W. & Hines, M. F., “Wide band resonance isolators”, I.R.E. Transactions on Microwave Theory Tech., 9 (1961), 63.
  • Lax, B. & Button, K. G., Microwave Ferrites and Ferrimagnetics (McGraw-Hill Book Co. Inc.), p. 344.
  • Ibid, p. 572.
  • Lax, B., “Frequency and loss characteristics of microwave ferrite devices”, Proc. I.R.E., 44 (1956), 1368.
  • Weiss, M. T., “Improved rectangular waveguide resonance isolators”, I.R.E. Transactions on Microwave Theory Tech., 4 (1956), 240.
  • Heller, G. S. & Catuna, G. W., “Measurement of ferrite isolations of 1300 inc.”, I.R.E. Transactions on Microwave Theory Tech., 6 (1958), 97.
  • Bownness, C. (private communication) (Developed by Laytheon company under the subcontact from the Mitre Corp.).
  • Maxwell. L. R. & Pickart, S. J., “Magnetization in nickel ferrite aluminates and nickel ferrite gallats”, Phys. Rev., 92 (1953), 1120.
  • Harrison,. G. R. & Hodges, L. R. (Jr), “Microwave properties of polycrystalline hybrid garnets”, Microwave Journal, 4 (6) (1961), 53.
  • Beljers, H. G., “Faraday effect in magnetic materials with travelling and standing waves”, Philips Research Report, 9 (1954), 131.
  • Weiss, M. T. & Anderson, P. W., “Ferromagnetic resonance in ferroxdure”, Phys. Rev., 98 (1955), 925.
  • Weiss, M. T. & Dunn, A. F., “A 5 mm. resonance isolator”, I.R.E. Transactions on Microwave Theory Tech., 6 (1958), 331.
  • Kravitz, L. C. & Heller, G. S., “Resonance isolator at 70 kmc.”, Proc. I.R.E., 43 (1959), 331.
  • Foner, S., “High field antiferro, ferri and paramagnetic resonance at millimetre wavelength”, Intern. Conference on Magnetism, Grenoble, France, July 1958.
  • Heller, G. S., Stickler, J. J. & Thaxter, J. B., “Antiferromagnetic materials for millimeter and submillimetre devices”, J. appl. Phys., 32 (1961), 307 S.
  • Keffer, F. & Kittel, C., “Theory of antiferromagnetic resonance”, Phys. Rev., 85 (1952), 329.
  • Lax, Benjamin & Button, K. G., Microwave Ferrite and Ferrimagnetics (McGraw-Hill Book Co. Inc.), 600.
  • Suhl, H., “The non-linear behaviour of ferrites at high microwave signal levels”, Proc. I.R.E., 44 (1956), 1270.
  • Molchor, J. L. & Vartanian, P. H., “Temperature effects in microwave ferrite devices”, I.R.E. Transactions on Microwave Theory Tech., 7 (1959), 15.

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