克尔透镜锁模Cr:ZnS振荡器实现了一个光学倍频程的光谱跨度。

Kerr-lens mode-locked Cr:ZnS oscillator reaches the spectral span of an optical octave.

作者信息

Vasilyev Sergey, Moskalev Igor, Smolski Viktor, Peppers Jeremy, Mirov Mike, Barnakov Yury, Fedorov Vladimir, Martyshkin Dmitry, Mirov Sergey, Gapontsev Valentin

出版信息

Opt Express. 2021 Jan 18;29(2):2458-2465. doi: 10.1364/OE.411984.

DOI:10.1364/OE.411984

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7920525/

Abstract

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.

摘要

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。

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本文引用的文献

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Phys Rev Lett. 2020 Apr 3;124(13):133904. doi: 10.1103/PhysRevLett.124.133904.

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Directly diode-pumped, Kerr-lens mode-locked, few-cycle Cr:ZnSe oscillator.直接二极管泵浦、克尔透镜锁模、少周期Cr:ZnSe振荡器。

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4

Efficient femtosecond mid-infrared generation based on a Cr:ZnS oscillator and step-index fluoride fibers.基于Cr:ZnS振荡器和阶跃折射率氟化物光纤的高效飞秒中红外光产生

Opt Lett. 2019 May 15;44(10):2390-2393. doi: 10.1364/OL.44.002390.

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2/3 octave Si/SiO infrared dispersive mirrors open new horizons in ultrafast multilayer optics.三分之二倍频程的硅/二氧化硅红外色散镜为超快多层光学开启了新视野。

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