Optical modulation in Er-doped fiber laser delivering dark pulse utilizing side polished fiber coated with Ti₃AlC₂ as saturable absorber

Abstract: Dark pulse mode-locked Erbium doped fiber laser (EDFL) was demonstrated in this work by employing side polished fiber (SPF) coated with Ti3AlC2 solution using drop casting method. The modulation depth of fabricated SPF coated with Ti3AlC2 solution was characterized at 2.2%. This SPF coated structure allowed the formation of dark mode-locked pulse with improved the birefringence and nonlinearity in EDFL. The dark pulse generated was cubic-quintic nonlinear Schrödinger equation (CQNLSE) dark pulse with center wa… Show more

“…Dark pulses can be generated using various materials as saturable absorbers, such as carbon nanotube [12], black phosphorus [13], molybdenum disulfide [14] , and MAX phase [15]. Among the materials, MAX phase seems promising, evidenced by plenty of research incorporating these materials in a fiber laser cavity [16,17].…”

Molybdenum gallium carbide coated D-shape fiber for nanosecond dark pulse generation in erbium-doped fiber laser

“…Dark pulses can be generated using various materials as saturable absorbers, such as carbon nanotube [12], black phosphorus [13], molybdenum disulfide [14] , and MAX phase [15]. Among the materials, MAX phase seems promising, evidenced by plenty of research incorporating these materials in a fiber laser cavity [16,17].…”

Molybdenum gallium carbide coated D-shape fiber for nanosecond dark pulse generation in erbium-doped fiber laser

Passively Generated Q-Switched Pulses Fiber Laser in 2 Μm Wavelength Using Mxene Ti3c2tx and Ti2ctx Saturable Absorber