本論文是以Mach-Zehnder干涉儀為光纖感測器架構，干涉儀兩臂同時作為感測光纖段，並自行製作一摻鉺光纖環型共振腔雷射為光源，同一光源以前後雙向進入感測架構中，前後向各有一光偵測器接收干涉訊號。入侵感測位置與干涉儀前、後端距離有一長度差，我們把此長度差推算為兩干涉訊號的時間延遲，兩時間延遲的訊號以互相關運算(cross-correlation)作分析，進而達到入侵感測與定位的效果。

第1章 序論
1.1 研究背景
1.2 研究目標
1.3 論文大綱
第2章 基本原理
2.1 光纖布拉格光柵
2.2 光循環器
2.3摻鉺光纖放大器(EDFA)
2.4自發性輻射放大光譜
2.5光纖雷射
2.5.1 光纖雷射的發展
2.5.2 光纖雷射的基本特性
2.6干涉原理
2.7 光源線寬量測原理
2.8 Mach-Zehnder光纖感測器
2.8.1 Mach-Zehnder干涉儀
2.8.2 Mach-Zehnder光纖感測器
2.8.3入侵感測訊號處理
第3章 實驗架構
3.1光纖環形共振腔雷射光源
3.1.1 光源架構
3.1.2 光源線寬量測架構
3.2 Mach-Zehnder光纖感測架構
第4章 實驗結果與討論
4.1光源量測
4.2 感測訊號數據分析
4.3加入極化控制器後的感測結果
第5章 結論與未來展望

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