The Wave Concept in Electromagnetism and Circuits, Theory and Applications by Baudrand, Henri -- Read -- Imperial Library of Trantor

Index

Cover Table of Contents Title Preface 1 General Principles of the Wave Concept Iterative Process

1.1. Introduction 1.2. The iterative wave method 1.3. General definition of waves 1.4. Application to planar circuits 1.5. Applications to quasi-periodic structures 1.6. Circuits with localized components 1.7. General principles of quasi-periodic circuits 1.8. The significance of using auxiliary sources 1.9. Unidimensional circuits 1.10. Application: transmission line 1.11. Comparison of current density for different cell lengths 1.12. Bi-dimensional circuits 1.13. Two-source bi-dimensional circuits 1.14. Three-source bi-dimensional circuits 1.15. Validation examples 1.16. Lenses and meta-materials 1.17. Conclusion

2.1. Introduction 2.2. WCIP formulation 2.3. Real and ideal polarizers within planar structures using WCIP 2.4. Amplifier structure of compact micro-waves

3 Applications of the WCIP Method to Frequency Selective Surfaces (FSS)

3.1. Introduction 3.2. Formulation of the iterative WCIP method 3.3. Application of the iterative WCIP method to different FSSs 3.4. Anisotropic FSS 3.5. Measurement system 3.6. Conclusion 3.7. Acknowledgments

4.1. Introduction 4.2. Formulation of WCIP for SIC circuits 4.3. Results for SIW circuits 4.4. Results for the SINRD circuits 4.5. Conclusion

5 WCIP Convergence

5.1. Introduction 5.2. Summary of WCIP 5.3. Improvement of WCIP by mathematical techniques 5.4. Improvement of WCIP by physical considerations 5.5. Conclusions

6 Application of WCIP to Diffraction Problems

6.1. Introduction 6.2. Application 6.3. Coupling simulation 6.4. Conclusion

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