Tamura K, Nakazawa M
Opt Lett. 1998 Sep 1;23(17):1360-2. doi: 10.1364/ol.23.001360.
It is shown that timing jitter owing to the Gordon-Haus (G-H) effect of solitons that are compressed adiabatically in dispersion-decreasing fibers (DDF's) is approximately determined by total dispersion and initial conditions, which are independent of compression dynamics. As a result the established theory for G-H jitter is still applicable. Timing jitter near the levels predicted by theory is observed in pulses from a regeneratively mode-locked fiber laser compressed in a DDF.
结果表明,在色散渐减光纤(DDF)中绝热压缩的孤子由于戈登-豪斯(G-H)效应引起的定时抖动大约由总色散和初始条件决定,而这两者与压缩动力学无关。因此,已建立的G-H抖动理论仍然适用。在DDF中压缩的再生锁模光纤激光器发出的脉冲中观察到了接近理论预测水平的定时抖动。
