A study of physical optics for high frequency electromagnetic scattering analysis 高周波における電磁波散乱解析のための物理光学法に関する研究

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Author

    • 大堂, 雅之 オオドウ, マサユキ

Bibliographic Information

Title

A study of physical optics for high frequency electromagnetic scattering analysis

Other Title

高周波における電磁波散乱解析のための物理光学法に関する研究

Author

大堂, 雅之

Author(Another name)

オオドウ, マサユキ

University

東京工業大学

Types of degree

博士 (工学)

Grant ID

甲第3449号

Degree year

1997-03-26

Note and Description

博士論文

Table of Contents

  1. 論文目録 / (0002.jp2)
  2. Contents / p1 (0004.jp2)
  3. 1 Introductory Remarks / p1 (0006.jp2)
  4. 1.1 A Brief Historical Overview / p1 (0006.jp2)
  5. 1.2 Objectives and Outline / p4 (0008.jp2)
  6. 2 High Frequency Methods / p9 (0010.jp2)
  7. 2.1 Introduction / p9 (0010.jp2)
  8. 2.2 Asymptotic Evaluation of Integrals / p10 (0011.jp2)
  9. 2.3 Analysis Methods for High Frequency Electromagnetic Scattering / p12 (0012.jp2)
  10. 3 Physical Optics for Impedance Surfaces / p27 (0019.jp2)
  11. 3.1 Introduction / p27 (0019.jp2)
  12. 3.2 Field Equivalence Principle / p28 (0020.jp2)
  13. 3.3 Physical Optics Currents on Impedance Surfaces / p31 (0021.jp2)
  14. 3.4 Accuracy Check / p32 (0022.jp2)
  15. 3.5 Conclusion / p37 (0024.jp2)
  16. 4 Uniform Physical Optics Diffraction Coefficients / p39 (0025.jp2)
  17. 4.1 Introduction / p39 (0025.jp2)
  18. 4.2 Derivation of Uniform PO Diffraction Coefficients / p40 (0026.jp2)
  19. 4.3 Accuracy Check / p43 (0027.jp2)
  20. 4.4 Conclusion / p49 (0030.jp2)
  21. 5 Errors of Physical Optics in Shadow Region / p57 (0034.jp2)
  22. 5.1 Introduction / p57 (0034.jp2)
  23. 5.2 Method of Equivalent Edge Currents for PO in Two-Dimensional Problem / p59 (0035.jp2)
  24. 5.3 Scatterer with a Corner / p62 (0037.jp2)
  25. 5.4 Scatterer with a Smooth Curve / p66 (0039.jp2)
  26. 5.5 Conclusion / p75 (0043.jp2)
  27. 6 Equivalence of Physical Optics and Aperture Field Integration Method -Equivalent Surface Currents- / p77 (0044.jp2)
  28. 6.1 Introduction / p77 (0044.jp2)
  29. 6.2 Equivalent Surface Currents in Aperture Field Integration Method / p79 (0045.jp2)
  30. 6.3 EECs for AFIM and Equivalence to PO / p81 (0046.jp2)
  31. 6.4 Numerical Comparison of PO and AFIM / p88 (0050.jp2)
  32. 6.5 Conclusion / p94 (0053.jp2)
  33. 7 Equivalence of Physical Optics and Aperture Field Integration Method -Integration Surfaces for Polyhedron Approximate Reflectors- / p95 (0053.jp2)
  34. 7.1 Introduction / p95 (0053.jp2)
  35. 7.2 Integration Surface in Aperture Field Integration Method for a Two-dimensional Strip / p97 (0054.jp2)
  36. 7.3 Polyhedron Surfaces / p99 (0055.jp2)
  37. 7.4 Further Study for General Smooth Surfaces / p110 (0061.jp2)
  38. 7.5 Conclusion / p115 (0063.jp2)
  39. 8 Concluding Remarks / p117 (0064.jp2)
  40. 8.1 Summary of Preceding Chapters / p117 (0064.jp2)
  41. 8.2 Remarks for Future Studies / p118 (0065.jp2)
  42. A Analysis of a 2D Cylindrical Wave Scattering by a Corner Reflector by Mode Matching Method / p119 (0065.jp2)
  43. B EECs for AFIM / p125 (0068.jp2)
  44. C Exact Equivalence of PO and AFIM / p127 (0069.jp2)
  45. Acknowledgement / p131 (0071.jp2)
  46. List of Publications / p133 (0072.jp2)
  47. References / p137 (0074.jp2)
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Codes

  • NII Article ID (NAID)
    500000153651
  • NII Author ID (NRID)
    • 8000001092667
  • DOI(NDL)
  • NDLBibID
    • 000000317965
  • Source
    • NDL ONLINE
    • NDL Digital Collections

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