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Single-crystal and ceramic Yb:Lu2O3 gain media for thin-disk oscillators

Stefan Esser, Xiaodong Xu, Jun Wang, Jian Zhang, Thomas Graf, Marwan Abdou Ahmed

2023Applied Physics B15 citationsDOIOpen Access PDF

Abstract

Abstract We report on the direct comparison of single-crystal and ceramic Yb 3+ :Lu 2 0 3 gain media with respect to emission spectra, fluorescence lifetime, depolarization, and laser performance in a continuous-wave thin-disk laser oscillator. The most efficient laser operation was achieved with a single-crystal disk in multimode operation with a slope efficiency of 72.1% and an average output power of 997 W. At the same temperature level, a ceramic disk delivered 861 W with a slope efficiency of 68.6%. In fundamental-mode operation, the highest average power of 360 W and highest optical efficiency of 41.3% were obtained with a ceramic disk. For the single-crystal disk, the fundamental-mode output power was limited to 113 W at an optical efficiency of 29%, potentially due to stress within the crystal.

Topics & Concepts

Slope efficiencyMaterials scienceCeramicLaserThin diskOpticsCrystal (programming language)Active laser mediumMulti-mode optical fiberSingle crystalQuantum opticsQuantum efficiencyOptoelectronicsDisk laserLaser power scalingFiber laserOptical fiberPhysicsComposite materialWavelengthNuclear magnetic resonanceStarsProgramming languageAstronomyComputer scienceSolid State Laser TechnologiesAdvanced Fiber Laser TechnologiesPhotorefractive and Nonlinear Optics
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