Vasilyev Sergey, Moskalev Igor, Smolski Viktor, Peppers Jeremy, Mirov Mike, Barnakov Yury, Fedorov Vladimir, Martyshkin Dmitry, Mirov Sergey, Gapontsev Valentin
Opt Express. 2021 Jan 18;29(2):2458-2465. doi: 10.1364/OE.411984.
We report, to the best of our knowledge, the first super-octave femtosecond polycrystalline Cr:ZnS laser at the central wavelength 2.4 µm. The laser is based on a non-polarizing astigmatic X-folded resonator with normal incidence mounting of the gain element. The chromatic dispersion of the resonator is controlled with a set of dispersive mirrors within one third of an optical octave over 2.05-2.6 µm range. The resonator's optics is highly reflective in the range 1.8-2.9 µm. The components of the oscillator's output spectrum at the wavelengths 1.6 µm and 3.2 µm are detected at -60 dB with respect to the main peak. Average power of few-cycle Kerr-lens mode-locked laser is 1.4 W at the pulse repetition frequency 79 MHz. That corresponds to 22% conversion of cw radiation of Er-doped fiber laser, which we used for optical pumping of the Cr:ZnS oscillator.
据我们所知,我们报道了第一台中心波长为2.4 µm的超倍频程飞秒多晶Cr:ZnS激光器。该激光器基于一个非偏振像散X折叠腔,增益元件垂直入射安装。通过一组色散镜在2.05 - 2.6 µm范围内将腔的色散控制在光学倍频程的三分之一以内。腔的光学元件在1.8 - 2.9 µm范围内具有高反射率。在相对于主峰-60 dB处检测到振荡器输出光谱在波长1.6 µm和3.2 µm处的成分。少周期克尔透镜锁模激光器在脉冲重复频率79 MHz时的平均功率为1.4 W。这相当于掺铒光纤激光器连续波辐射的22%的转换效率,我们用它对Cr:ZnS振荡器进行光泵浦。