Stretched-pulse mode-locking synchronously triggered by a femtosecond master laser at sub-megahertz repetition rate

A stretched-pulse mode-locked ytterbium-doped fiber laser was passively synchronized to a femtosecond Ti:sapphire laser at a low repetition rate of 240 kHz through large cross absorption modulation along additional 1-m-long erbium-doped fiber. The synchronous fiber laser with an ultra-long fiber cavity could produce not only nanosecond flat-top pulses with tunable pulse duration but also Gaussian-shape stretched pulses with its minimum pulse duration of similar to 450 ps as confirmed by cross-correlation measurement. When operating in the stretched pulse regime, the sub-nanosecond fiber laser could be synchronously triggered by the master injection with the cavity-length mismatch tolerance up to similar to 7.8 cm and timing jitter less than 400 fs, confirming that the stretched-pulse mode-locking of the ultra-long slave fiber laser could be robustly controlled by cross absorption modulation effects in the erbium-doped fiber with appropriate femtosecond master injection.