Litcius/Paper detail

Q-Switched and Mode-Locked Er-doped fiber laser based on MAX phase Ti2AlC saturable absorber

Guoqing Sun, Ming Feng, Kang Zhang, Tianhao Wang, Yuanhao Li, Dongdong Han, Yigang Li, Feng Song

2021Results in Physics69 citationsDOIOpen Access PDF

Abstract

MAX phase materials, exhibiting excellent antioxidation, corrosion resistance and high electrical and optical conductivity, attract much attention. The nonlinear optical properties of the MAX phase Ti2AlC was demonstrated by measuring the saturable absorption of Ti2AlC- polyvinyl (PVA) film. The modulation depth of the Ti2AlC-PVA film is calculated to be 2.21%. Stable Q-switched and mode-locked pulses train were achieved in Erbium-doped fiber ring cavity by using Ti2AlC-PVA film as a saturable absorber. The maximum single pulse energy of the Q-switched laser was 92.8 nJ, and the pulse width of the mode-locked laser was 680 fs. This study shows the great potential of MAX phase materials for ultrashort laser pulses generation and provides some valuable design guidelines for the preparation of SAs based on MAX phase materials.

Topics & Concepts

Saturable absorptionMaterials scienceFiber laserLaserDopingQ-switchingPhase (matter)Mode-lockingOptoelectronicsPulse-width modulationAbsorption (acoustics)Optical cavityPulse durationErbiumPulse (music)OpticsVoltageComposite materialChemistryWavelengthPhysicsQuantum mechanicsOrganic chemistryDetectorAdvanced Fiber Laser TechnologiesAdvanced Fiber Optic SensorsPhotonic Crystal and Fiber Optics
Q-Switched and Mode-Locked Er-doped fiber laser based on MAX phase Ti2AlC saturable absorber | Litcius