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Fabrication and Characterizations of Yb:YAG Transparent Ceramics Using Alcohol-water Co-precipitation Method

Xinyou HUANG, Yumin Liu, Yang Liu, Xiaoying LI, Yagang Feng, Xiaopu Chen, Penghui Chen, Xin Liu, Tengfei Xie, Jiang Li

2020Journal of Inorganic Materials17 citationsDOIOpen Access PDF

Abstract

Yb 3+ doped YAG transparent ceramics have great potential as gain medium for high-power solid-state lasers due to many advantages, such as broad absorption and emission bands, high gain, low thermal loading, long fluorescence lifetime and high quantum efficiency. So Yb:YAG transparent ceramics have gradually been paid more attention. In this work, we aimed at optimizing the properties of powders to fabricate highly transparent Yb:YAG ceramics. 5at%Yb:YAG nano-powders were synthesized via the co-precipitation method by using ammonium hydrogen carbonate as the precipitant, and pure water or alcohol-water mixture as the solvent. All powders calcined at 1250 for 4 h exhibit a pure YAG phase. Compared to the one with pure water solvent, the 5at%Yb:YAG powder synthesized with alcohol-water solvent exhibits smaller average crystallite size and lower agglomeration degree. 5at%Yb:YAG transparent ceramics were successfully fabricated by vacuum sintering without sintering additives from the obtained powder with alcohol-water solvent. The microstructure and in-line transmittance of the ceramics sintered at 1500-1825 for 20 h and 1800 for 10-50 h were investigated. All ceramic samples show a homogeneous microstructure except for that sintered at 1825 for 20 h. The sample sintered at 1800 for 50 h shows the highest in-line transmittance of 78.6% at 1100 nm and 76.7% at 400 nm (2.2 mm thickness). The calculated absorption and emission cross sections are 5.0310 -21 cm 2 at 937 nm and 13.4810 -21 cm 2 at 1031 nm, respectively. Therefore, Yb:YAG ceramics with high optical transparency and uniform microstructure have been fabricated from powder with alcohol-water solvent.

Topics & Concepts

Materials scienceTransparent ceramicsFabricationCeramicPrecipitationAlcoholChemical engineeringComposite materialMeteorologyBiochemistryChemistryAlternative medicineMedicineEngineeringPhysicsPathologyLuminescence Properties of Advanced MaterialsSolid State Laser TechnologiesMicrowave Dielectric Ceramics Synthesis