Abstract

Transparent ytterbium-doped yttria ceramics, 2 at.% Yb:Y 2 O 3 , were fabricated by hot uniaxial pressing in vacuum at 1550 °C/50 MPa followed by a two-stage Hot Isostatic Pressing (HIPing) at 1200–1400 °C/100 MPa, using nanopowders obtained by self-propagating high-temperature synthesis (with lithium fluoride serving as a sintering aid). The addition of LiF during the powder synthesis markedly changed the morphology of powders, and at the stage of hot pressing, drastically reduced the carbon contamination of ceramics, as well as stimulated sintering without formation of the liquid phase. The spectroscopic properties of ceramics were studied. The stimulated-emission cross-section for Yb 3+ ions is 0.90 × 10 −20 cm 2 at 1030.4 nm and the luminescence lifetime is 797 μs. A continuous-wave 2 at.% Yb:Y 2 O 3 ceramic laser generated an output power of 735 mW at 1027–1034 nm with a slope efficiency of 64.5% and a laser threshold of 0.28 W. • Yb:Y 2 O 3 ceramic is produced by HPing and two-stage HIPing at 1200–1400 °C/100 MPa. • Lithium fluoride is used as a sintering aid improving the optical quality of ceramics. • The microstructure, spectroscopic and laser properties of Yb:Y 2 O 3 ceramic are studied. • The stimulated-emission cross-section for Yb 3+ ions is 0.90 × 10 −20 cm 2 at 1030.4 nm. • Yb:Y 2 O 3 ceramic laser generated 735 mW at 1027–1034 nm with a 64.5% slope efficiency.

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