Nonlinear pulse compression to 51-W average power GW-class 35-fs pulses at 2-μm wavelength in a gas-filled multi-pass cell

Gierschke P, Grebing C, Abdelaal M, Lenski M, Buldt J, Wang Z, Heuermann T, Mueller M, Gebhardt M, Rothhardt J, Limpert J (2022)


Publication Type: Journal article

Publication year: 2022

Journal

Book Volume: 47

Pages Range: 3511-3514

Journal Issue: 14

DOI: 10.1364/OL.462647

Abstract

We report on the generation of GW-class peak power, 35-fs pulses at 2-μm wavelength with an average power of 51 W at 300-kHz repetition rate. A compact, krypton-filled Herriotttype cavity employing metallic mirrors is used for spectral broadening. This multi-pass compression stage enables the efficient post compression of the pulses emitted by an ultrafast coherently combined thulium-doped fiber laser system. The presented results demonstrate an excellent preservation of the input beam quality in combination with a power transmission as high as 80%. These results show that multi-pass cell based post-compression is an attractive alternative to nonlinear spectral broadening in fibers, which is commonly employed for thulium-doped and other mid-infrared ultrafast laser systems. Particularly, the average power scalability and the potential to achieve few-cycle pulse durations make this scheme highly attractive.

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How to cite

APA:

Gierschke, P., Grebing, C., Abdelaal, M., Lenski, M., Buldt, J., Wang, Z.,... Limpert, J. (2022). Nonlinear pulse compression to 51-W average power GW-class 35-fs pulses at 2-μm wavelength in a gas-filled multi-pass cell. Optics Letters, 47(14), 3511-3514. https://doi.org/10.1364/OL.462647

MLA:

Gierschke, P., et al. "Nonlinear pulse compression to 51-W average power GW-class 35-fs pulses at 2-μm wavelength in a gas-filled multi-pass cell." Optics Letters 47.14 (2022): 3511-3514.

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