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10-W mid-IR optical parametric oscillators based on ZnGeP<sub>2</sub> elements pumped by a fibre-laser-pumped Ho : YAG Laser. Experimental and numerical study
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2017
Year
Optical MaterialsEngineeringLaser ScienceLaser PhysicsLaser ApplicationsSuper-intense LasersFiber OpticsFiber LasersHigh-power LasersOptical AmplifierNumerical StudyOptical PropertiesYag LaserFiber LaserFibre-laser-pumped HoOptical PumpingPhotonicsZngep2 CrystalsPhysicsLaser DesignApplied PhysicsCluster SpectrumHigh-energy LasersOptoelectronicsLasers
The possibility of increasing the power and efficiency of 3.5 – 5.0 μm optical parametric oscillators (OPOs) based on one or two ZnGeP2 crystals pumped by a repetitively pulsed Ho: YAG laser (λ = 2097 nm), which, in turn, is pumped by a thulium fibre laser (λ = 1908 nm), is studied. The OPO based on a tandem of ZnGeP2 elements is demonstrated to generate high-quality beams with an average power up to 10 W in pulses with durations of 15 – 25 ns at a repetition rate of ∼17 kHz. The total conversion efficiency of the fibre laser power to the mid-IR radiation reached 25%. A theoretical OPO model explaining a cluster spectrum and higher output power in the case of the ZnGeP2 tandem than in the case of a single element is developed.