Technique for passive phase locking of fiber lasers by an all-optical feedback loop is studied theoretically and experimentally.
对基于环形腔光反馈的光纤激光被动锁相技术进行了理论和实验研究。
The dye laser pulse has been synchronized with the iodine laser pulse by a combination of active-passive mode-locking.
它采用主-被动锁模相结合的染料激光脉冲与碘激光脉冲同步工作。
The differences of the passive mode-locking by the SESAM in the plane-concave stable resonator and the plane-convex unstable resonator lasers were experimentally compared and reasonably explained.
实验比较了SESAM器件在平凹稳定腔和平凸非稳腔激光器中实现被动锁模的差异,并给出理论解释。
The basic structure and the fundamental principle of semiconductor saturable absorption mirrors (SESAM) that are used for passive mode-locking solid-state lasers are introduced.
介绍了半导体可饱和吸收镜(SESAM)的基本结构及使用半导体可饱和吸收镜被动锁模固态激光器的基本原理。
And theoretical analysis is given to explain these random wavelengths existing in this kind of technique for passive phase-locking.
从理论上对被动锁相技术中所存在的这种波长随机现象进行了分析和解释。
It is suggested that using a NACLM as a passive mode locking element, generation of ultrashort pulses of very high repetition rate is promising with a fiber laser.
实验表明,采用非线性放大复合环形镜构成复合腔光纤激光器,有可能获得高重复频率的锁模脉冲。
It is suggested that using a NACLM as a passive mode locking element, generation of ultrashort pulses of very high repetition rate is promising with a fiber laser.
实验表明,采用非线性放大复合环形镜构成复合腔光纤激光器,有可能获得高重复频率的锁模脉冲。
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