We report on an experimental demonstration of a 1200-nm pumped Tm3+:Lu2O3 ceramic laser. By using a gain-switched, tunable Cr4+:forsterite laser, the excitation spectrum was measured, with optimum pumping bands centered near 1198 nm, 1204 nm, and 1211 nm. The highest slope efficiency of 21.5% was obtained at the pump wavelength of 1204 nm. Comparative energy efficiency measurements performed near 1200-nm and 800-nm pumping further showed that nearly 40% improvement was obtained in slope efficiency measured with respect to the incident pump energy for 1200-nm pumping. A transition was further observed from single-wavelength operation at 2066 nm to dual-wavelength operation near 2066 nm and 1967 nm for absorbed pump energies above 50 mu J. In this regime, two consecutive output pulses were observed in the time domain. The shortest temporal duration of the first pulse was 1.1 mu s at the incident pulse energy of 105 mu J. The duration and build-up time of the second pulse remained around 5.9 mu s and 18.5 mu s. We believe that the improved energy efficiency demonstrated for the 1.5% Tm3+:Lu2O3 ceramic with 1200-nm pumping can be used as an alternative scheme for the excitation of Tm3+:Lu2O3 ceramic lasers. (C) 2018 Optical Society of America
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机译:我们报告了1200nm泵浦TM3 +:LU2O3陶瓷激光器的实验演示。通过使用增益切换的可调CR4 +:Forsterite激光,测量激励光谱,具有近1198nm,1204nm和1211nm的最佳泵带。在泵浦波长为1204nm时获得21.5%的最高坡度效率。在1200-nm和800nm泵送接近的比较能效测量进一步表明,在相对于1200nm泵送的入射泵能量测量的斜坡效率下获得了近40%的改善。从2066nm的单波长操作进一步观察到转变,以在2066nm附近的双波长操作和1967nm处,用于吸收泵能量以上50μm的吸收泵能。在该制度中,在时域中观察两个连续的输出脉冲。在105μm的入射脉冲能中,第一脉冲的最短时间持续时间为1.1μs。第二脉冲的持续时间和积聚时间保持在5.9 mu s和18.5亩。我们认为,为1.5%TM3 +:LU2O3陶瓷的提高能效用于1200nm3泵送的陶瓷,可用作TM3 +:LU2O3陶瓷激光器的激发的替代方案。 (c)2018年光学学会
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