本論文致力於使用逐線脈衝塑形器，以20GHz單頻連續波雷射光光頻梳為基礎，產生高重複率光脈衝序列。論文內展示160GHz入射高反應速度光偵測器，克服熱效應、提升射頻轉換效率（6.4dB）和飽和功率之毫米波通訊應用實驗，以及確實產生時間上265飛秒（femtosecond）320GHz的高重複率光脈衝序列。

We experimentally demonstrate the generation of 320 GHz repetition-rate optical pulse train with FWHM 265 fs by applying line-by-line shaping control over a 20 GHz optical frequency comb. Moreover , we achieve strong (6.4 dB) saturation-power enhancements of UTC-PD output by using 160GHz pulse train , as compared to that under sinusoidal excitation.

摘要 I
Abstract II
誌謝 III
目錄 V
圖目錄 VI
第一章序論 1
1.1前言 1
1.2研究動機及目的 4
1.3論文架構概述 6
第二章理論背景及實驗技術介紹 7
2.1相位調變單頻雷射之光頻梳產生 7
2.1.1單一相位調變器產生光頻梳 8
2.1.2雙軌馬克山德式強度調變器產生光頻梳 10
2.2逐線脈衝塑形技術 13
2.2.1脈衝塑形原理 13
2.2.2寬頻逐線脈衝塑形 16
2.2.3脈衝重複率倍增以及時域陶柏效應（Temporal Talbot Effect） 17
2.3自我相位調變（Self-phase Modulation）頻譜拓展 19
第三章實驗架構與結果分析討論 22
3.1高重複率光脈衝產生實驗架構 22
3.2高重複率脈衝實驗結果與討論 24
3.3毫米波光偵測器量測結果與討論 30
第四章結論與未來展望 34
參考文獻 36

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