Yang K J, Bromberger H, Heinecke D, Kölbl C, Schäfer H, Dekorsy T, Zhao S Z, Zheng L H, Xu J, Zhao G J
Department of Physics and Center of Applied Photonics, University of Konstanz, 78457 Konstanz, Germany.
Opt Express. 2012 Aug 13;20(17):18630-5. doi: 10.1364/OE.20.018630.
An efficient continuous wave and passively mode-locked thulium-doped oxyorthosilicate Tm:LuYSiO5 laser is demonstrated. A maximum slope efficiency of 56.3% is obtained at 2057.4 nm in continuous wave operation regime. With an InGaAs quantum well SESAM, self-starting passively mode-locked Tm:LuYSiO5 laser is realized in the 1929 nm to 2065 nm spectral region. A maximum average output power of 130.2 mW with a pulse duration of 33.1 ps and a repetition rate of about 100 MHz is generated at 1984.1 nm. Pulses as short as 24.2 ps with an average output power of 100 mW are obtained with silicon prisms where used to manage the intracavity dispersion. The shortest pulse duration of about 19.6 ps is obtained with an average output power of 64.5 mW at 1944.3 nm.
展示了一种高效的连续波和被动锁模掺铥正硅酸氧镥(Tm:LuYSiO5)激光器。在连续波工作模式下,在2057.4 nm处获得了56.3%的最大斜率效率。利用一个InGaAs量子阱SESAM,在1929 nm至2065 nm光谱区域实现了自启动被动锁模Tm:LuYSiO5激光器。在1984.1 nm处产生了最大平均输出功率为130.2 mW、脉冲持续时间为33.1 ps且重复频率约为100 MHz的激光。使用硅棱镜来控制腔内色散时,获得了平均输出功率为100 mW、脉宽短至24.2 ps的脉冲。在1944.3 nm处,以64.5 mW的平均输出功率获得了约19.6 ps的最短脉冲持续时间。