亚纳秒、中红外、0.5 kHz 周期性极化化学计量比 LiTaO3 光参量振荡器,平均功率超过 1 W。
Subnanosecond, mid-IR, 0.5 kHz periodically poled stoichiometric LiTaO3 optical parametric oscillator with over 1 W average power.
机构信息
Department of Physics, Sofia University, Sofia, Bulgaria.
出版信息
Opt Lett. 2013 Sep 1;38(17):3347-9. doi: 10.1364/OL.38.003347.
We report a subnanosecond mid-IR tunable optical parametric oscillator based on periodically poled stoichiometric lithium tantalate (PPSLT), pumped by an amplified single frequency microchip laser at 1064 nm at a repetition rate of 0.5 kHz. Using a 20 mm long PPSLT crystal polled with three different domain periods (30.2, 30.3, and 30.4 μm) and changing the temperature of the crystal from 20°C to 265°C, we achieved wavelength tuning between 2990 and 3500 nm. The high nonlinearity of the used medium and the large aperture (3.2 mm) ensure maximum idler output energy of ~2 mJ in the whole tuning range, corresponding to 18% idler conversion efficiency and more than 1 W of average power. 270 ps idler pulse durations were obtained as a result of the 818 ps pulse duration of the pump.
我们报告了一种基于周期性极化 stoichiometric 锂钽酸盐(PPSLT)的亚纳秒中红外可调谐光参量振荡器,由 1064nm 的放大单频微芯片激光器以 0.5kHz 的重复率泵浦。使用 20mm 长的 PPSLT 晶体,施加三个不同的周期(30.2μm、30.3μm 和 30.4μm),并将晶体温度从 20°C 改变到 265°C,我们实现了 2990nm 到 3500nm 的波长调谐。所使用介质的高非线性和大孔径(3.2mm)确保了整个调谐范围内的闲频光输出能量高达~2mJ,对应于 18%的闲频转换效率和超过 1W 的平均功率。由于泵浦的 818ps 脉冲持续时间,获得了 270ps 的闲频脉冲持续时间。
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