Ternary ReS2(1-x)Se2x alloys of different composition for Q-switched and mode-locked all-fiber laser

Abstract This paper systematically studied the composition-controlled nonlinear optical properties and pulse modulation of ternary ReS 2(1− x ) Se 2 x alloys for the first time. The compositionally modulated characteristics of ReS 2(1− x ) Se 2 x on the band gap were simulated based on the first principles. We investigated the effect of the band gap on the saturable absorption properties. In addition, we demonstrated the modulation characteristics of different components ReS 2(1− x ) Se 2 x on 1.5 μ m Q-switched pulse performance. The Q-switched threshold, repetition rate, and pulse duration increase as the S(sulfur)-element composition rise. And pulse energy also was affected by the S(sulfur)-element composition. The ReS 0.8 Se 1.2 SA was selected to realize a conventional soliton with high energy in the all-fiber mode-locked laser. The pulse was centered at 1562.9 nm with a pulse duration of 2.26 ps, a repetition rate of 3.88 MHz, and maximum pulse energy of 1.95 nJ. This work suggests that ReS 2(1− x ) Se 2 x has great potential in laser technology and nonlinear optics, and widely extends the material applications in ultrafast photonics.