Photochemical hole burning for Sm[2+]-doped oxide glasses Sm[2+]をドープした酸化物ガラスにおける光化学ホールバーニング

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Author

    • 趙, 阧煕 チョウ, ズヒ

Bibliographic Information

Title

Photochemical hole burning for Sm[2+]-doped oxide glasses

Other Title

Sm[2+]をドープした酸化物ガラスにおける光化学ホールバーニング

Author

趙, 阧煕

Author(Another name)

チョウ, ズヒ

University

京都大学

Types of degree

博士 (工学)

Grant ID

甲第6422号

Degree year

1996-03-23

Note and Description

博士論文

Table of Contents

  1. 論文目録 / (0001.jp2)
  2. CONTENTS / (0006.jp2)
  3. 1.INTRODUCTION TO PERSISTENT SPECTRAL HOLE BURNING(PSHB)IN GLASSES / p1 (0008.jp2)
  4. 1-1 Basic principles of PSHB / p1 (0008.jp2)
  5. 1-2 Hole formation and detection / p5 (0010.jp2)
  6. 1-3 Review of typical mechanisms of PSHB in solids / p9 (0012.jp2)
  7. 1-4 Historical survey of PSHB / p12 (0014.jp2)
  8. 1-5 Synopsis of this thesis / p14 (0015.jp2)
  9. Reference / p17 (0016.jp2)
  10. 2.APPEARANCE OF ROOM TEMPERATURE PHOTOCHEMICAL HOLE BURNING IN OXIDE GLASSES / p21 (0018.jp2)
  11. 2-1 Introduction / p21 (0018.jp2)
  12. 2-2 Theoretical review of hole width and homogeneous line width / p22 (0019.jp2)
  13. 2-3 Experimental procedure / p27 (0021.jp2)
  14. 2-4 Result / p30 (0023.jp2)
  15. 2-5 Discussion / p35 (0025.jp2)
  16. 2-6 Conclusion / p38 (0027.jp2)
  17. Reference / p39 (0027.jp2)
  18. 3.PHOTOCHEMICAL HOLE BURNING AND LOCAL STRUCTURE CHANGE IN SM²⁺-DOPED BORATE GLASSES / p41 (0028.jp2)
  19. 3-1 Introduction / p41 (0028.jp2)
  20. 3-2 Experimental procedure / p42 (0029.jp2)
  21. 3-3 Result / p44 (0030.jp2)
  22. 3-4 Discussion / p64 (0040.jp2)
  23. 3-5 Conclusion / p72 (0044.jp2)
  24. Reference / p73 (0044.jp2)
  25. 4.PHOTOCHEMICAL HOLE BURNING IN SM²⁺-DOPED SILICATE AND BOROSILICATE GLASSES / p75 (0045.jp2)
  26. 4-1 Introduction / p75 (0045.jp2)
  27. 4-2 Experimental procedure / p76 (0046.jp2)
  28. 4-3 Result / p79 (0047.jp2)
  29. 4-4 Discussion / p91 (0053.jp2)
  30. 4-5 Conclusion / p95 (0055.jp2)
  31. Reference / p96 (0056.jp2)
  32. 5.PHOTOCHEMICAL HOLE BURNING AND STRUCTURAL DEFECTS OF SM²⁺-DOPED GLASSES / p99 (0057.jp2)
  33. 5-1 Introduction / p99 (0057.jp2)
  34. 5-2 X-ray irradiation effect on glasses / p100 (0058.jp2)
  35. 5-3 Experimental procedure / p102 (0059.jp2)
  36. 5-4 Result / p103 (0059.jp2)
  37. 5-5 Discussion / p113 (0064.jp2)
  38. 5-6 Conclusion / p117 (0066.jp2)
  39. Reference / p119 (0067.jp2)
  40. 6.HOLE BURNING MECHANISM AND HOLE FILLING IN SM²⁺-DOPED GLASSES / p121 (0068.jp2)
  41. 6-1 Introduction / p121 (0068.jp2)
  42. 6-2 Survey of PSHB mechanisms for rare earth ions in glasses / p122 (0069.jp2)
  43. 6-3 Experimental procedure / p124 (0070.jp2)
  44. 6-4 Result / p125 (0070.jp2)
  45. 6-5 Discussion / p133 (0074.jp2)
  46. 6-6 Conclusion / p139 (0077.jp2)
  47. Reference / p140 (0078.jp2)
  48. SUMMARY / p143 (0079.jp2)
  49. APPENDIX REVIEW OF TECHNOLOGICAL APPLICATION OF PHOTOCHEMICAL HOLE BURNING / p147 (0081.jp2)
  50. A-1 Frequency domain optical data storage / p147 (0081.jp2)
  51. A-2 Time domain optical data storage / p151 (0083.jp2)
  52. A-3 Holographic data storage / p153 (0084.jp2)
  53. A-4 Laser pulse shaping based on Fourier synthesis / p154 (0085.jp2)
  54. A-5 Laser pulse shaping based on voltage modulation / p155 (0085.jp2)
  55. A-6 Frequency multiplexed optical spatial filter / p155 (0085.jp2)
  56. Reference / p156 (0086.jp2)
  57. ACKNOWLEDGMENTS / p158 (0087.jp2)
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Codes

  • NII Article ID (NAID)
    500000131146
  • NII Author ID (NRID)
    • 8000000965838
  • DOI(NDL)
  • NDLBibID
    • 000000295460
  • Source
    • NDL ONLINE
    • NDL Digital Collections

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