Few-cycle 65-µJ pulses at 11.4 µm for ultrafast nonlinear longwave-infrared spectroscopy

Low-energy excitations can provide insight into the basic ultrafast nonequilibrium dynamics of condensed matter. High-energy femtosecond pulses in the long-wavelength infrared are required to induce such processes, and can be generated in an optical parametric chirped pulse amplification (OPCPA) system comprising three GaSe stages. A femtosecond Cr:ZnS laser serves as the front-end, providing the seed for the 2.0-µm pump and the 2.4-µm signal pulses without nonlinear conversion processes. The OPCPA system is pumped at 2.05 µm by a picosecond Ho:YLF regenerative amplifier at a 1-kHz repetition rate. The recompressed idler pulses at 11.4 µm have a duration of 185 fs and an unprecedented energy of 65 µJ, corresponding to a pump-to-idler conversion efficiency of 1.2%. Nonlinear transmission experiments in the range of the L2 infrared band of liquid water demonstrate the potential of the pulses for nonlinear vibrational spectroscopy of liquids and solids.

Keywords

Conversion efficiency, Electromagnetic pulse, Gallium compounds, II-VI semiconductors, Infrared radiation, Infrared spectroscopy, Layered semiconductors, Optical parametric amplifiers, Optical pumping, Selenium compounds, Zinc Selenide, Zinc sulfide

URI

https://oa.tib.eu/renate/handle/123456789/11885
http://dx.doi.org/10.34657/10918

Citation

Fuertjes, P., Bock, M., Grafenstein, L. v., Ueberschaer, D., Griebner, U., & Elsaesser, T. (2022). Few-cycle 65-µJ pulses at 11.4 µm for ultrafast nonlinear longwave-infrared spectroscopy. 9(11). https://doi.org//10.1364/optica.472650

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Physik
Ingenieurwissenschaften

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