Band structure engineering of semiconductor quantum well devices for optical fiber communications 光ファイバ通信用半導体量子井戸構造素子のバンドエンジニアリングに関する研究

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著者

    • 山中, 孝之 ヤマナカ, タカユキ

書誌事項

タイトル

Band structure engineering of semiconductor quantum well devices for optical fiber communications

タイトル別名

光ファイバ通信用半導体量子井戸構造素子のバンドエンジニアリングに関する研究

著者名

山中, 孝之

著者別名

ヤマナカ, タカユキ

学位授与大学

北海道大学

取得学位

博士 (工学)

学位授与番号

乙第5260号

学位授与年月日

1997-12-25

注記・抄録

博士論文

目次

  1. Contents / p4 (0005.jp2)
  2. Acknowledgements / p1 (0003.jp2)
  3. List of Publications Related to This Thesis / p2 (0004.jp2)
  4. Contents / p4 (0005.jp2)
  5. 1. Introduction / p1 (0006.jp2)
  6. 1.1. Scope of This Work / p1 (0006.jp2)
  7. 1.2. Organization of the Thesis / p20 (0016.jp2)
  8. 2. Quantum-Well Band Structure Based on The Effective-Mass k-p Theory / p23 (0017.jp2)
  9. 2.1. Introductory Remarks / p23 (0017.jp2)
  10. 2.2. Effective-Mass Approximation and Envelope Function / p24 (0018.jp2)
  11. 2.3. Effective-Mass Hamiltonians Based on The k-p Theory / p25 (0018.jp2)
  12. 2.4. Calculation of Quantum-Well Band Structures / p36 (0024.jp2)
  13. 3. Quantum-Well Lasers with Zero-Chirp Parameter / p47 (0029.jp2)
  14. 3.1. Introductory Remarks / p47 (0029.jp2)
  15. 3.2. Problem with Conventional Quantum-Well Lasers / p48 (0030.jp2)
  16. 3.3. Conditions for Lasing Oscillation at the Differential Gain Peak / p51 (0031.jp2)
  17. 3.4. Calculation of Laser Parameters Based on the Detailed Band Structure / p56 (0034.jp2)
  18. 3.5. Experimental Results / p68 (0040.jp2)
  19. 3.6. Summary / p75 (0043.jp2)
  20. 4. Completely Negative-Chirp Operation of Electroabsorption Modulators / p77 (0044.jp2)
  21. 4.1. Introductory Remarks / p77 (0044.jp2)
  22. 4.2. Quantum-Well Electroabsorption Model / p78 (0045.jp2)
  23. 4.3. Required Conditions for Complete Negative-Chirp Operatrion / p90 (0051.jp2)
  24. 4.4. Quantum-Confinement Effect on Chirp Reduction / p92 (0052.jp2)
  25. 4.5 Impact of Strain on Negative Chirp Parameter / p100 (0056.jp2)
  26. 4.6 Summary / p110 (0061.jp2)
  27. 5. Highly Efficient,QCSE-Induced Refractive-Index Change in Quantum-Well Phase Modulators / p113 (0062.jp2)
  28. 5.1. Introductory Remarks / p113 (0062.jp2)
  29. 5.2. Intensity Modulation Using Mach-Zehnder Interferometer / p114 (0063.jp2)
  30. 5.3. Electrooptic Effect in Bulk and Quantum-Well Waveguides / p118 (0065.jp2)
  31. 5.4. Quadratic Refractive-Index Change in InAs-Based Quantum-Well Structures / p123 (0067.jp2)
  32. 5.5. Prediction of Highly Efficient Modulation by TM-Polarized Light / p133 (0072.jp2)
  33. 5.6. Summary / p142 (0077.jp2)
  34. 6. Conclusion / p145 (0078.jp2)
  35. Appendices / p149 (0080.jp2)
  36. A. Causality and The Kramers-Kronig Relations / p149 (0080.jp2)
  37. A.1. Causality and Analiticity / p149 (0080.jp2)
  38. A.2. Cauchy Integral Derivation of Dispersion Relations / p151 (0081.jp2)
  39. A.3. Kramers-Kronig Relations / p154 (0083.jp2)
  40. B. Derivation of Eq.(2.6) / p159 (0085.jp2)
  41. C. On The Boundary Conditions at Quantum-Well Heterointerfaces / p163 (0087.jp2)
  42. C.1. Introductory Remarks / p163 (0087.jp2)
  43. C.2. Valence-Band Anomaly due to Effective-Mass Mismatch / p164 (0088.jp2)
  44. C.3. New Boundary Conditions for Discontinuous Connection of Envelope Functions / p174 (0093.jp2)
  45. C.4. Calculation with New Boundary Conditions / p177 (0094.jp2)
  46. C.5. Summary / p181 (0096.jp2)
  47. Bibliography / p183 (0097.jp2)
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各種コード

  • NII論文ID(NAID)
    500000153120
  • NII著者ID(NRID)
    • 8000001087181
  • DOI(NDL)
  • NDL書誌ID
    • 000000317434
  • データ提供元
    • NDL-OPAC
    • NDLデジタルコレクション
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