Opt Lett. 2022 Nov 15;47(22):5762-5765. doi: 10.1364/OL.472689.
We report on a first of its kind, to our knowledge broadband amplification in a Fe:CdSe single crystal in the mid-IR beyond 5 µm. The experimentally measured gain properties demonstrate saturation fluence close to 13 mJ/cm and support the bandwidth up to 320 nm (full width at half maximum). Such properties allow the energy of the seeding mid-IR laser pulse, generated by an optical parametric amplifier, to be pushed up to more than 1 mJ. Dispersion management with bulk stretcher and prism compressor enables 5-µm laser pulses of 134-fs duration, providing access to multigigawatt peak power. Ultrafast laser amplifiers based on a family of Fe-doped chalcogenides open the route for wavelength tuning together with energy scaling of mid-IR laser pulses that are strongly demanded for the areas of spectroscopy, laser-matter interaction, and attoscience.
我们报告了首例据我们所知的在中红外区(超过 5μm)中,在 Fe:CdSe 单晶中实现宽带放大。实验测量的增益特性表明饱和通量接近 13mJ/cm,并支持带宽高达 320nm(半峰全宽)。这些特性使得通过光参量放大器产生的中红外激光种子脉冲的能量能够提高到 1mJ 以上。使用体拉伸器和棱镜压缩器进行色散管理,可以实现 5μm 激光脉冲,其脉宽为 134fs,从而可以获得超过 1GW 的峰值功率。基于一系列掺铁的硫属化物的超快激光放大器为波长调谐以及中红外激光脉冲的能量扩展开辟了道路,这对于光谱学、激光与物质相互作用和阿秒科学等领域有着强烈的需求。
