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系統識別號 U0026-2706201318235100
論文名稱(中文) 光纖光柵模態轉換元件之分析
論文名稱(英文) Analysis of Fiber-Grating Based Optical Mode Converter
校院名稱 成功大學
系所名稱(中) 光電科學與工程學系
系所名稱(英) Department of Photonics
學年度 101
學期 2
出版年 102
研究生(中文) 林子堯
研究生(英文) Tz-Yao Lin
學號 L76001391
學位類別 碩士
語文別 中文
論文頁數 68頁
口試委員 指導教授-曾碩彥
口試委員-黃勝廣
口試委員-魏明達
口試委員-徐旭政
中文關鍵字 皮秒雷射加工  MATLAB最佳化指令  模態比例組成 
英文關鍵字 Picosecond laser processing  MATLAB fminsearch  Modal composition 
學科別分類
中文摘要 在論文中,我們利用單模光纖SMF-28去掉纖衣再利用皮秒雷射加工製作以
雷射光中心波長1064nm為準特定週期LPBG模態轉換元件。由於雷射模態在量測
端出口端是個別模態電場間的干涉,為了求得轉換效率,我們也特別設計模態逆
運算系統,利用MATLAB最佳化指令幫我們找出個別模態比例組成,對於模擬與
實驗數據上的逆運算,我們也做了不同的角度與多重指令細部設定分析,讓量測
端實驗數據逆運算上更趨準確。
英文摘要 In this thesis, we use picosecond laser to fabricate long period Bragg grating on cladding stripped single mode SMF-28 fiber as mode converter for 1064nm. Because of modal interference in the measurement setup, we design the modal simulation using the “fminsearch” command in MATLAB to find modal composition in order to obtain conversion efficiency. In order to achieve better fitting between experiment and simulation, we rotate experimental data and optimize the parameters in “fminsearch” in our analysis. We are able to obtain the precise modal composition.
論文目次 口試合格證明書...........................................I

中文摘要................................................II

Abstract...............................................III

致謝....................................................IV

目錄....................................................V

圖目錄..................................................VII

第一章 緒論..............................................1

第二章 理論推導...........................................2

2.1 光纖色散方程式數學推導..................................2

2.2光纖色散方程式模擬圖.....................................7

2.3 模態耦合理論..........................................8

2.4 模態逆運算系統概念.....................................14

第三章 LPBG加工與量測架構.................................17

3.1 雷射加工選用光纖......................................17

3.2 LPBG元件加工製作......................................20

3.3 M平方參數測量.........................................23

3.4 量測端系統架構........................................26

3.5 量測系統放大倍率......................................29

第四章 結果與討論........................................32

4.1 模態逆運算系統........................................32

4.2 波長633nm下實驗數據逆運算..............................38

4.3 波長1012nm下實驗數據逆運算.............................51

第五章 結論.............................................65

參考文獻.................................................66
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