新型高性能全光纤掺镱锁模激光器

《新型高性能全光纤掺镱锁模激光器》由会员上传分享，免费在线阅读，更多相关内容在学术论文-天天文库。

1、分类号TN248学号13079001ＵＤＣ密级公开工学博士学位论文新型高性能全光纤掺镱锁模激光器博士生姓名陈河学科专业光学工程研究方向高性能脉冲激光技术指导教师姜宗福教授协助指导教师陈胜平副研究员国防科学技术大学研究生院二〇一六年十月NovelHigh-PerformanceAll-FiberMode-LockedYetterbium-DopedLasersCandidate：ChenHeSupervisor：Prof.JiangZongfuAssistantSupervisor：AssociateProf.ChenShengpingAdissertationSubmittedinparti

2、alfulfillmentoftherequirementsforthedegreeofDoctorofEngineeringinOpticalEngineeringGraduateSchoolofNationalUniversityofDefenseTechnologyChangsha，Hunan，P.R.ChinaOctober，2016国防科学技术大学研究生院博士学位论文目录摘要.........................................................................................................

3、........iAbstract..............................................................................................................iii第一章绪论........................................................................................................11.1锁模光纤激光器的分类及应用背景.........................................

4、....................21.1.1锁模机制..............................................................................................21.1.2锁模光纤激光器实现形式..................................................................71.1.3高性能锁模激光器的应用背景........................................................141.2高性能全正色散锁模光纤激

5、光器研究现状...............................................141.2.1全正色散耗散孤子锁模光纤激光器研究进展................................151.2.2全正色散耗散孤子共振锁模光纤激光器研究进展........................181.2.3全正色散类噪声锁模光纤激光器研究进展....................................191.3高性能锁模光纤激光器实用化的关键问题...............................................201.3

6、.1关键性能提升....................................................................................201.3.2全光纤、全保偏化............................................................................211.3.3饱和吸收体的改进............................................................................221.3.4时域及波长调谐性能提升.......

7、.........................................................221.4论文的主要内容和结构安排.......................................................................23第二章全正色散锁模光纤激光器理论分析.........................................