中国激光, 2016, 43 (10): 1000001, 网络出版: 2016-10-12
Nd3+掺杂无序晶体被动锁模激光器的研究现状
Research Status of Passively Mode-locked Laser Based on Nd3+-doped Disordered Crystals
激光器 Nd3+掺杂无序晶体 四能级激光运转 准三能级激光运转 被动锁模激光器 lasers Nd3+-doped disordered crystal four-level laser operation quasi-three-level laser operation passively mode-locked lasers
摘要
全固态激光器被动锁模是产生超短脉冲的一种有效方法。在基于Nd3+掺杂激光材料被动锁模产生超短脉冲的研究中,无序晶体成为研究的热点。结合相关工作,总结了Nd3+掺杂无序晶体被动锁模激光器的研究现状,展望了Nd3+掺杂无序晶体在超强超短脉冲制备中的发展前景。
Abstract
An effective way to realize an ultra-short pulse is to use the passively mode-locked technology of all-solid-state lasers. Among the studies on the passively mode-locked Nd3+-doped lasers, the disordered crystals have been becoming a research hotspot. In combination with related works, the research status of passively mode-locked lasers based on Nd3+-doped disordered crystals are summarized, and the future prospect on the application of Nd3+-doped disordered crystals in the generation of ultra-short and ultra-intense pulses is discussed.
何坤娜, 李德华, 魏志义. Nd3+掺杂无序晶体被动锁模激光器的研究现状[J]. 中国激光, 2016, 43(10): 1000001. He Kunna, Li Dehua, Wei Zhiyi. Research Status of Passively Mode-locked Laser Based on Nd3+-doped Disordered Crystals[J]. Chinese Journal of Lasers, 2016, 43(10): 1000001.