A J Baden Fuller
Ferrites at Microwave Frequencies
A J Baden Fuller
Ferrites at Microwave Frequencies
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This book includes a full mathematical treatment of the interaction of an electromagnetic wave with a gyromagnetic ferrite material.
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This book includes a full mathematical treatment of the interaction of an electromagnetic wave with a gyromagnetic ferrite material.
Produktdetails
- Produktdetails
- Verlag: Institution of Engineering & Technology
- Seitenzahl: 280
- Erscheinungstermin: 30. Juni 1987
- Englisch
- Abmessung: 240mm x 161mm x 19mm
- Gewicht: 589g
- ISBN-13: 9780863410642
- ISBN-10: 0863410642
- Artikelnr.: 35665623
- Verlag: Institution of Engineering & Technology
- Seitenzahl: 280
- Erscheinungstermin: 30. Juni 1987
- Englisch
- Abmessung: 240mm x 161mm x 19mm
- Gewicht: 589g
- ISBN-13: 9780863410642
- ISBN-10: 0863410642
- Artikelnr.: 35665623
John Baden Fuller was educated at Emmanuel College, Cambridge, graduating with first class honours in Engineering. After a graduate apprenticesip with the B.T.H. Co. Ltd., Rugby, in 1957 he joined their military radar department (now part of GEC) to work on the design of ferrite control components in waveguide. In 1964 he moved to an academic post, first at the Leicester College of Technology and soon afterwards to the University of Leicester where he has been a lecturer in the Engineering Department ever since. He has continued a particular interest with wave phenomena in waveguide and ferrite in waveguide devices, and has kept abreast of the literature on microwave ferrite devices for 30 years. Recently he started working on the computer analysis and synthesis of circuits applied to the design of microwave transistor amplifiers. He has written textbooks on Microwaves and Engineering Field Theory.
Chapter 1: Introduction
Chapter 2: Plane waves in an infinite ferrite medium
Chapter 3: Longitudinally magnetised ferrite in circular waveguide
Chapter 4: Transversely magnetised ferrite in circular waveguide
Chapter 5: Circular waveguide devices
Chapter 6: Transversely magnetised ferrite in rectangular waveguide
Chapter 7: Rectangular waveguide devices
Chapter 8: Y-junction circulator
Chapter 9: Stripline and microstrip devices
Chapter 10: Millimetre wave devices
Chapter 11: High-power and nonlinear effects
Chapter 12: Perturbation theory and measurements
Chapter 2: Plane waves in an infinite ferrite medium
Chapter 3: Longitudinally magnetised ferrite in circular waveguide
Chapter 4: Transversely magnetised ferrite in circular waveguide
Chapter 5: Circular waveguide devices
Chapter 6: Transversely magnetised ferrite in rectangular waveguide
Chapter 7: Rectangular waveguide devices
Chapter 8: Y-junction circulator
Chapter 9: Stripline and microstrip devices
Chapter 10: Millimetre wave devices
Chapter 11: High-power and nonlinear effects
Chapter 12: Perturbation theory and measurements
Chapter 1: Introduction
Chapter 2: Plane waves in an infinite ferrite medium
Chapter 3: Longitudinally magnetised ferrite in circular waveguide
Chapter 4: Transversely magnetised ferrite in circular waveguide
Chapter 5: Circular waveguide devices
Chapter 6: Transversely magnetised ferrite in rectangular waveguide
Chapter 7: Rectangular waveguide devices
Chapter 8: Y-junction circulator
Chapter 9: Stripline and microstrip devices
Chapter 10: Millimetre wave devices
Chapter 11: High-power and nonlinear effects
Chapter 12: Perturbation theory and measurements
Chapter 2: Plane waves in an infinite ferrite medium
Chapter 3: Longitudinally magnetised ferrite in circular waveguide
Chapter 4: Transversely magnetised ferrite in circular waveguide
Chapter 5: Circular waveguide devices
Chapter 6: Transversely magnetised ferrite in rectangular waveguide
Chapter 7: Rectangular waveguide devices
Chapter 8: Y-junction circulator
Chapter 9: Stripline and microstrip devices
Chapter 10: Millimetre wave devices
Chapter 11: High-power and nonlinear effects
Chapter 12: Perturbation theory and measurements