Laser emission from low-loss cladding waveguides in Pr:YLF by femtosecond laser helical inscription
Yingying Ren, Zemeng Cui, Lifei Sun, Chao Wang, Hongliang Liu, Yangjian Cai
Abstract
Depressed cladding waveguides are fabricated in Pr:LiYF4 (YLF) crystal by femtosecond laser inscription following a helical scheme. With the optimized parameters, the propagation loss of the waveguide is around 0.12 dB/cm for multimode guiding. Under optical pumping with InGaN laser diodes at 444 nm, efficient waveguide lasers in the orange around 604 nm (π-polarized) are achieved with minimum lasing threshold of 119.8 mW, maximum slope efficiency of 16.6%, and maximum output power of 120.6 mW. Benefiting from their optimized performances, the waveguides produced in this work are promising for applications as compact orange laser sources.
Topics & Concepts
Materials scienceLaserOpticsFemtosecondCladding (metalworking)Lasing thresholdWaveguideOptoelectronicsSlope efficiencyDiodeFiber laserPhysicsMetallurgySolid State Laser TechnologiesLaser Design and ApplicationsLaser Material Processing Techniques