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研究生:古昀生
研究生(外文):Yun-Sheng Ku
論文名稱:寬頻光方向耦合器使用數種權重函數之結構最佳化設計
論文名稱(外文):Optimal design of waveguide structure for broadband optical directional coupler with various weighting functions
指導教授:陳奇夆
指導教授(外文):Chi-Feng Chen
學位類別:碩士
校院名稱:國立中央大學
系所名稱:機械工程研究所
學門:工程學門
學類:機械工程學類
論文種類:學術論文
論文出版年:2009
畢業學年度:97
語文別:英文
論文頁數:118
中文關鍵詞:光方向耦合器權重函數
外文關鍵詞:optical directional couplerweighting function
相關次數:
  • 被引用被引用:1
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波長多工光通訊系統發中,設備的要求需寬頻與低串擾的元件來處理所有的信號。在光方向耦合器當中有一種絕熱式光方向耦合器是一個適當的選擇,其元件具有對光極化,光波長及元件長度不敏感的特性,其功能是控制功率,類似傳統光學的元分光器,因此絕熱式光方向耦合器是使用相當廣泛的元件。本研究提出了一修正型函數,並定義數個變數,利用串擾以及頻寬的模擬與計算優化所設計的耦合器。最後得知耦合器的結構參數、耦合器長度與加工裕度是需要被考慮的在絕熱式光方向耦合器的設計上,在五個不同的函數中每個所獲得的效益都是不一樣的,必須有各自的優化條件與使用處不同的先決條件。
Under WDM system, we often need a broadband device addressing all the signals. One of the candidates is the adiabatic coupler which exhibits advantages of insensitive to polarizations, wavelengths and length of the device. The objective of the work includes two parts: the fist part defines theory ranges and processing tolerance of mismatched optical coupler (MOC). The second part is optimization waveguide structure of MOC for low the crosstalk, broadband (broad bandwidth and C+L-band) and short couplers, respectively. The results prove clearly of coupling structure that short coupler length with process tolerance is need considered in the MOC.
Table of Contents
Abstract in Chinese I
Abstract in English II
Table of Content III
List of Tables V
List of Figures VIII
Chapter 1. Introduction 1
1.1 Preface and overview 1
1.2 Research Motivation 4
1.3 Content Summary 5
Chapter 2. Theoretical model and Schematics diagram of MOC 8
2.1 Theoretical model 8
2.2 Schematics diagram of MOC 13
Chapter 3. SSF, RCF, HWF, and M-HWF for broad bandwidth 15
3.1 SSF VS. RCF 15
3.1.1 Theoretical calculations 15
3.1.2 BPM simulations for crosstalk and coupler length 16
3.1.3 BPM simulations for structure tolerance and bandwidth 17
3.1.4 Conclusions 18
3.2 HWF Vs. M-HWF 31
3.2.1 Theoretical calculations 31
3.2.2BPM simulation results and discussions 32
3.2.3Conclusion 34
Chapter 4. BWF, HWF, and M-HWF for C+L-ban 45
4.1 BWF 45
4.1.1 Theoretical calculations 45
4.1.2 BPM simulation results and discussions 46
4.1.3 Conclusion 50
4.2 HWF VS. M-HWF 56
4.2.1 Theoretical calculations 56
4.2.2 Results and discussion 57
4.2.3 Conclusion 60
Chapter 5. Conclusions 67
References 68
Appendix A 70
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