Switchable and tunable multi-wavelength emissions in pulsed ytterbium fiber lasers with black phosphorus saturable absorbers and polarization-maintaining fiber Bragg gratings

Abstract

In this paper, we present a systematic study of ytterbium-doped pulsed fiber lasers, both Q-switched and mode-locked, that emitted in switchable and tunable multi-wavelength states. The pulsed lasers were initiated by black phosphorus saturable absorbers (BP-SAs) prepared by an optically driven process. One relatively thicker BP-SA with a modulation depth of 16.8% and a saturable intensity of 13.09 MW/cm2 was used for Q switching, and one thinner BP-SA with a modulation depth of 6.7% and a saturable intensity of 7.82 MW/cm2 was used for mode locking. The switchable and tunable wavelength-emitting status was achieved by a Bragg grating written in polarization maintaining fibers (PM-FBG). The fabricated fiber Bragg grating had two reflection peaks. By adjusting an in-cavity polarization controller, the wavelength-emitting status of the pulsed lasers was flexibly switched in three discrete states: individual wavelength of 1063.8 and 1064.1 nm, respectively; and simultaneously emitting both wavelengths with tuning capability. Stable Q-switched and mode-locked laser pulses were observed with all three wavelength-emitting states. Furthermore, by applying stresses at the fast or slow axis of the utilized PM-FBG, the wavelength spacing could be tuned from 0.02 to 0.52 nm in the dual-wavelength emission state.