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Full Screen- TITLE
- DEDICATION
- DECLARATION
- CERTIFICATE
- ACKNOWLEDGEMENT
- ABSTRACT
- PREFACE
- CONTENTS
- LIST OF TABLES
- LIST OF FIGURES
- 1. GENERAL PROPERTIES AND APPLICATIONS OF FERRITES
- 1.1 Introduction
- 1.2 Ferrite materials and properties
- 1.3 Yig Film Fabrication and Effect of Dopping
- 1.4 High Frequency Integrated Circuits
- 1.5 Statement of The Problem and Organization of the Thesis
- 1.6 Summary
- References
- 2. ELECTROMAGNETIC WAVE PROPAGATION IN FERRITES AND FERRITE/DIELECTRIC SYSTEMS
- 2.1 Introduction
- 2.2Ferrite Permeability Tensor
- 2.3 Propagation in an Unbounded Ferrite Medium
- 2.4 Regimes of Wave Propagatin
- 2.5 Propagation in Magnetized Ferrimagnetic Films
- 2.6 Method of Analysis: An Overview
- 2.7 Propagation in a Yig Film: Theory
- 2.8 Propagation in Ferrite/Dielectric/Ferrite Structure
- 2.9 Summary
- References
- 3. PROPAGATION IN FERRITE-SUPERCONDUCTING HYBRID STRUCTURES
- 3.1 Introduction
- 3.2 Superconducting Materials and Modelling
- 3.3 Ferrite/Superconductor/Ferrite Structure
- 3.4 Ferrite/Superconductor Structure
- 3.5 HTS/Ferrite/HTS Structure
- 3.6 Ferrite/Dielectric/HTS Structure
- 3.7 Summary
- References
- 4. PROPAGATION IN FERRITE-NONLINEAR DIELECTRIC HYBRID STRUCTURES
- 4.1 Introduction
- 4.2 Linear Ferrite Film With Nonlinear Cladding and Substrate
- 4.3 Linear Ferrite and Nonlinear Half Spaces
- 4.4 Nonlinear Ferroelectric and Linear Ferrite Half Spaces
- 4.5 General Discussion and Comparison
- 4.6 Summary
- References
- 5. PROPAGATION IN MICROSTRIP CIRCUIT STRUCTURES
- 5.1 Introduction
- 5.2 Derivation of Dispersion Relation
- 5.3 Numerical Results
- 5.4. Summary
- References
- 6.. CONCLUSION AND SCOPE OF FUTURE WORK
- 6.1 Brief Review and Discussion of Results
- 6.2 Scope for future work