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標題: | 準相位匹配鉭酸鋰高效率寬頻藍光雷射晶片之研製 High Efficiency Broadband Blue Laser Based on Quasi-Phase-Matched Periodically-Poled Lithium Tantalate |
作者: | Zhi-Xian Chou 周志賢 |
指導教授: | 彭隆瀚 |
關鍵字: | 鉭酸鋰,藍光, Lithium Tantalate,Blue light, |
出版年 : | 2011 |
學位: | 碩士 |
摘要: | 本篇論文主要由三大部分構成:準相位匹配與光參振盪器原理的介紹、光參-倍頻藍光雷射晶片之研製,以及光參-倍頻藍光雷射晶片之光學量測與特性分析。
理論部分,首先闡述非線性頻率轉換與準相位匹配理論,接著介紹光參振盪以及倍頻轉換理論。利用鉭酸鋰晶體在不同操作條件下配合理論去計算,滿足準相位匹配所需之週期大小。利用本實驗室發展的鎳金屬內擴散配合高壓電致極化反轉製程技術,應用於厚度0.75mm之共熔鉭酸鋰基片製作。實驗中設計光參-倍頻藍光雷射晶片,在倍頻部分做了三週期與五週期的設計,光參部份的週期為7.7576um,而倍頻部份的兩種設計分別為4.9514um、4.9865um、5.0218um,以及4.9514um、4.9689um、4.9865um、5.0041um、5.0281um,並成功研製出長13mm的高效率寬頻藍光雷射晶片。 光學量測部分,利用奈秒(~5ns)532nm綠光雷射做為泵浦源,設計一共振腔可共振930nm將所研製完成之雷射晶片置入,測量此光參振盪器之出光轉換效率。我們成功以350mW綠光泵浦搭配準相位匹配級聯狀光參-倍頻藍光雷射晶片,以及雷射共焦腔之設計,實現頻寬1.4nm,斜線效率21%之465nm的高效率寬頻藍光雷射,並得到54mW的藍光輸出,且藍光轉換效率達到15.4%。 This thesis is composed of three parts:(1) the theory of quasi-phase- matching(QPM) and the QPM optical parametric oscillator(OPO), (2) the fabrication technique of one-dimensional periodically poled congruent grown lithium tantalite(LiTaO3) for cascade OPO-SHG 465nm blue laser chip, (3) the measurement and analysis of OPO-SHG blue light generators. First of all, I will introduce the mechanism of nonlinear frequency conversion and QPM theory, and its application to the optical parametric and second harmonic generation. By using Sellmeier equation, I design the QPM period of periodically poled LiTaO3 (PPLT) for the above application. By taking advantage of the nickel-diffusion assisted electric poling process, I fabricated cascaded OPO-SHG devices on 0.75mm-thick congruent LiTaO3 substrate. For cascaded OPO-SHG PPLT device, I design multi- SHG segment composed of 3 QPM periods with 4.9514 um, 4.9865 um, and 5.0218 um. Another SHG design is composed of 5 QPM periods with 4.9514 um, 4.9689 um, 4.9865 um, 5.0041 um and 5.0281 um. By this design, we achieve OPO-SHG blue laser with high slope efficiency and broad spectrum. Using a 532nm, bean of 5ns pulse width as the pump source, a 13mm long cascaded OPO-SHG chip in a concave laser cavity of 15mm length is shown to generate a 465nm high efficiency broadband blue laser. The spectrum is shown to have a 1.4 nm bandwidth and 21% slope efficiency. By this process, an average output power of 54mW blue light laser has been achieved under a 350mW input green pump, which corresponds to a conversion efficiency of 15.4%. |
URI: | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/31507 |
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