Photorefractive effects in ferroelectric crystals and their applications 強誘電体単結晶における光励起による屈折率効果とその応用

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著者

    • 陳, 智明 チン, チメイ

書誌事項

タイトル

Photorefractive effects in ferroelectric crystals and their applications

タイトル別名

強誘電体単結晶における光励起による屈折率効果とその応用

著者名

陳, 智明

著者別名

チン, チメイ

学位授与大学

京都大学

取得学位

博士 (工学)

学位授与番号

甲第6399号

学位授与年月日

1996-03-23

注記・抄録

博士論文

目次

  1. 論文目録 / (0001.jp2)
  2. CONTENTS / p1 (0004.jp2)
  3. Chapter1 Introduction / p1 (0006.jp2)
  4. References / p5 (0008.jp2)
  5. Chapter2 Growth and Evaluation of LiNbO₃ Single Crystals / p9 (0010.jp2)
  6. §2.1.Introduction / p9 (0010.jp2)
  7. §2.2.Growth of LiNbO₃ Crystals / p11 (0011.jp2)
  8. 2.2.1.Phase Diagram and Composition / p11 (0011.jp2)
  9. 2.2.2.Crystal Growth / p11 (0011.jp2)
  10. 2.2.3.Automatic Diameter Control / p15 (0013.jp2)
  11. 2.2.4.Poling of LiNbO₃ Crystals / p18 (0015.jp2)
  12. §2.3.Characterization of the Crystals / p20 (0016.jp2)
  13. 2.3.1.Confirmation of Polarization / p20 (0016.jp2)
  14. 2.3.2.Distribution of Iron / p22 (0017.jp2)
  15. 2.3.3.Optical Absorption Spectra of LiNbO₃ Crystals / p23 (0017.jp2)
  16. §2.4.Summary / p30 (0021.jp2)
  17. References / p31 (0021.jp2)
  18. Chapter3 Anomalous Photovoltaic Current and Diffraction Grating in LiNbO₃ Crystals / p33 (0022.jp2)
  19. §3.1.Introduction / p33 (0022.jp2)
  20. §3.2.Anomalous Photovoltaic Current / p35 (0023.jp2)
  21. 3.2.1.Preparation of Samples / p35 (0023.jp2)
  22. 3.2.2.Experimental / p36 (0024.jp2)
  23. 3.2.3.Product of Quantum Efficiency and Mean Effective Transport Length / p41 (0026.jp2)
  24. 3.2.4.Confirmation of Pyroelectric Current / p41 (0026.jp2)
  25. §3.3.Formation of Gratings and Diffraction Efficiency / p46 (0029.jp2)
  26. 3.3.1.Two-Wave Mixing / p46 (0029.jp2)
  27. 3.3.2.Transmission Grating and Optical Diffraction / p48 (0030.jp2)
  28. 3.3.3. Discussion / p51 (0031.jp2)
  29. §3.4.Reflection Grating and Coupling Gain / p53 (0032.jp2)
  30. 3.4.1.Theoretical Consideration / p53 (0032.jp2)
  31. 3.4.2.Experimental / p54 (0033.jp2)
  32. 3.4.3.Results and Discussion / p56 (0034.jp2)
  33. §3.5.Light Scattering in c-Cut Plate / p58 (0035.jp2)
  34. 3.5.1.Experimental / p58 (0035.jp2)
  35. 3.5.2.Generation of Spots / p60 (0036.jp2)
  36. 3.5.3.Formation of Rings / p64 (0038.jp2)
  37. §3.6.Summary / p64 (0038.jp2)
  38. References / p65 (0038.jp2)
  39. Chapter4 LiNbO₃ Holograms and Phase Conjugation by Four-Wave Mixing / p67 (0039.jp2)
  40. §4.1.Introduction / p67 (0039.jp2)
  41. §4.2.Observation of Transmission Gratings in LiNbO₃:Fe / p68 (0040.jp2)
  42. 4.2.1.Theoretical Consideration for Photoinduced Space Charge Field / p68 (0040.jp2)
  43. 4.2.2.Observation of High Frequency Components in Gratings / p71 (0041.jp2)
  44. 4.2.3.Observation of Tilting of Gratings / p73 (0042.jp2)
  45. §4.3.Holograms for Image Recording / p78 (0045.jp2)
  46. 4.3.1.Photorefractive Hologram / p78 (0045.jp2)
  47. 4.3.2.Multiple Storage of Hologram / p80 (0046.jp2)
  48. §4.4.Phase Conjugation by Four-Wave Mixing / p83 (0047.jp2)
  49. 4.4.1.Phase Conjugate Wave / p83 (0047.jp2)
  50. 4.4.2.Coupling Coefficient for Optical Wave Mixing / p86 (0049.jp2)
  51. 4.4.3.Generation of Phase Conjugate Wave / p88 (0050.jp2)
  52. §4.5.Summary / p91 (0051.jp2)
  53. References / p95 (0053.jp2)
  54. Chapter5 High Reflective Self-Pumped Phase Conjugation and Improvement of Response Speed in BaTiO₃ Single Crystal / p97 (0054.jp2)
  55. §5.1.Introduction / p97 (0054.jp2)
  56. §5.2.Preparation of Photorefractive BaTiO₃ Single Crystal / p99 (0055.jp2)
  57. 5.2.1.Growth of BaTiO₃ Crystal by TSSC Technique / p99 (0055.jp2)
  58. 5.2.2.Optical Sample Preparation / p102 (0057.jp2)
  59. §5.3.Self-Pumped Phase Conjugation in BaTiO₃ Crystal / p107 (0059.jp2)
  60. 5.3.1.Stable and High Reflective of Self-Pumped Phase Conjugation / p107 (0059.jp2)
  61. 5.3.2.Incident Angle Dependence of Reflectivity / p110 (0061.jp2)
  62. 5.3.3.Response Time of Self-Pumped Phase Conjugation / p116 (0064.jp2)
  63. §5.4.Improvement of Response Speed of Phase Conjugation / p117 (0064.jp2)
  64. 5.4.1.Accelerated Phase Conjugate Generation / p117 (0064.jp2)
  65. 5.4.2.Pre-accelerated Phase Conjugate Generation / p120 (0066.jp2)
  66. 5.4.3.Mechanisms for Pre-accelerated Phase Conjugation / p123 (0067.jp2)
  67. 5.4.4.Theoretical Calculation for Four-Wave Mixing / p127 (0069.jp2)
  68. §5.5.Summary / p131 (0071.jp2)
  69. References / p133 (0072.jp2)
  70. Chapter6 Optical Associative Memory Using Photorefractive Materials / p135 (0073.jp2)
  71. §6.1.Introduction / p135 (0073.jp2)
  72. §6.2.Theoretical Consideration for Optical Associative Memory / p136 (0074.jp2)
  73. 6.2.1.Linear Hologram / p136 (0074.jp2)
  74. 6.2.2.Linear Holographic Associative Memory / p140 (0076.jp2)
  75. 6.2.3.Nonlinear Optical Associative Memory / p141 (0076.jp2)
  76. §6.3.Experimental / p143 (0077.jp2)
  77. 6.3.1.Optical Associative Memory I / p143 (0077.jp2)
  78. 6.3.2.Optical Associative Memory II / p145 (0078.jp2)
  79. 6.3.3.Optical Associative Memory III / p148 (0080.jp2)
  80. §6.4.Summary / p150 (0081.jp2)
  81. References / p152 (0082.jp2)
  82. Chapter7 Conclusions / p153 (0082.jp2)
  83. Acknowledgments / p158 (0085.jp2)
  84. List of Publications / p160 (0086.jp2)
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各種コード

  • NII論文ID(NAID)
    500000131123
  • NII著者ID(NRID)
    • 8000000965818
  • DOI(NDL)
  • NDL書誌ID
    • 000000295437
  • データ提供元
    • NDL-OPAC
    • NDLデジタルコレクション
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