Skip to main content
Chapter
Licensed
Unlicensed Requires Authentication

4 Diffraction by a Plane Perfectly Conducting Angular Sector (Heuristic Approach)

Become an author with De Gruyter Brill
Explore this Subject How to publish with us
The Method of the Generalised Eikonal
This chapter is in the book The Method of the Generalised Eikonal

Chapters in this book

  1. Frontmatter I
  2. Preface VII
  3. Contents IX
  4. Introduction 1
  5. 1 Method of Generalized Eikonal 15
  6. 2 Solution of Two-dimensional Problems by the Method of Generalized Eikonal 35
  7. 3 Application of Two-dimensional Solutions to Three-dimensional Problems 73
  8. 4 Diffraction by a Plane Perfectly Conducting Angular Sector (Heuristic Approach) 85
  9. 5 Propagation of Radio Waves in Urban Environment (Deterministic Approach) 109
  10. 6 Analytical Heuristic Solution for Wave Diffraction by a Plane Polygonal Scatterer 125
  11. 7 Conclusion 135
  12. A Application of Stokes Theorem to Diffraction Problems 139
  13. B Rigorous Two-dimensional Solution for Diffraction by Half-plane 149
  14. C Application of Imaginary Edge in Diffraction Problems 157
  15. D Summary of Formulas for Diffraction by Plane Angular Sector 163
  16. E Fresnel Integral and its Properties 169
  17. F Generalized Fresnel Integral and Its Properties 173
  18. G Electromagnetic Wave Diffraction by Semi-transparent Plate in the Physical Optics Approximation 177
  19. H Generalized Diffraction Coefficient and its Application to Diffraction Problems 181
  20. Bibliography 193
  21. Index 199
  22. Backmatter 203
https://doi.org/10.1515/9783110311297-006

Chapters in this book

  1. Frontmatter I
  2. Preface VII
  3. Contents IX
  4. Introduction 1
  5. 1 Method of Generalized Eikonal 15
  6. 2 Solution of Two-dimensional Problems by the Method of Generalized Eikonal 35
  7. 3 Application of Two-dimensional Solutions to Three-dimensional Problems 73
  8. 4 Diffraction by a Plane Perfectly Conducting Angular Sector (Heuristic Approach) 85
  9. 5 Propagation of Radio Waves in Urban Environment (Deterministic Approach) 109
  10. 6 Analytical Heuristic Solution for Wave Diffraction by a Plane Polygonal Scatterer 125
  11. 7 Conclusion 135
  12. A Application of Stokes Theorem to Diffraction Problems 139
  13. B Rigorous Two-dimensional Solution for Diffraction by Half-plane 149
  14. C Application of Imaginary Edge in Diffraction Problems 157
  15. D Summary of Formulas for Diffraction by Plane Angular Sector 163
  16. E Fresnel Integral and its Properties 169
  17. F Generalized Fresnel Integral and Its Properties 173
  18. G Electromagnetic Wave Diffraction by Semi-transparent Plate in the Physical Optics Approximation 177
  19. H Generalized Diffraction Coefficient and its Application to Diffraction Problems 181
  20. Bibliography 193
  21. Index 199
  22. Backmatter 203
Downloaded on 8.5.2026 from https://www.degruyterbrill.com/document/doi/10.1515/9783110311297-006/html?lang=en
Scroll to top button