Divided-pulse nonlinear compression in a multipass cell

Stark, Henning; Grebing, Christian; Buldt, Joachim; Klenke, Arno; Limpert, Jens

doi:10.1088/2515-7647/ac66ab

J. Phys. Photonics

2022

DOI: 10.1088/2515-7647/ac66ab

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Divided-pulse nonlinear compression in a multipass cell

Henning Stark

Christian Grebing

Joachim Buldt

et al.

Abstract: The pulse-energy and peak-power limitations of a gas-filled multipass cell (MPC) for nonlinear pulse compression are surpassed by applying a burst of four temporally separated pulses instead of a single one. The burst is generated by two birefringent crystals and contains 1 m J … Show more

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Cited by 5 publications

References 24 publications

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Post-compression of the GW-level femtosecond pulse in a solid-state multi-pass cell

Shen,

Song,

Peng

et al. 2024

High Pow Laser Sci Eng

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We demonstrate the post-compression of the GW-level femtosecond pulse in a solid-state multi-pass cell (MPC) by the pre-chirp management method. When the laser pulse is positively pre-chirped, the 200 μJ 170 fs input pulse is compressed to 163 μJ 44 fs at the output, corresponding to a transmission of 81% and a pulse shortening factor of 3.86. When the laser pulse is negatively pre-chirped, the spectral evolution, as the pulse propagates in the MPC, is characterized and, eventually, the pulse duration is compressed to 51 fs, corresponding to a pulse shortening factor of 3.3. After the driving laser goes through the pre-chirp managed MPC device, the power stability and beam quality are almost preserved. The experimental results offer a viable path toward the post-compression of high-peak-power laser pulses.

show abstract

Post-compression of the GW-level femtosecond pulse in a solid-state multi-pass cell

Shen,

Song,

Peng

et al. 2024

High Pow Laser Sci Eng

View full text Add to dashboard Cite

show abstract

Divided-pulse Bulk Multi-pass Cell for Generating Sub-50 fs multi-GW Peak Power Pulses

Schygulla,

Jimenez,

Jiang

et al. 2024

EPJ Web Conf.

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Multi-GW Peak Power Scaling in a Multi-pass Cell by Divided Pulse Scheme

Schygulla,

Jimenez,

Jiang

et al. 2024

EPJ Web Conf.

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Multi-pass cells, known for their efficient spectral broadening, currently face a challenge in their peak power scalability. To address this, we implemented a strategy where the input pulse was split into 8 replicas, resulting in an increased pulse energy following nonlinear compression. The used laser delivered 208 fs pulses at 1030 nm, with pulse energies reaching up to 140μJ. Using 3 calcite crystals, the input pulse was divided and passed through the MPC, achieving a spectral broadening down to a 40 fs bandwidth limit. Subsequently, the replicas were recombined using an identical set of crystals and compressed via chirped mirrors. FROG measurements revealed a duration of 43 fs. The recombination losses amounted to less than 5 % of the output energy. This method is particularly attractive and cost-effective for spectral broadening of ultrafast lasers with adjustable repetition rate.

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Divided-pulse nonlinear compression in a multipass cell

Cited by 5 publications

References 24 publications

Post-compression of the GW-level femtosecond pulse in a solid-state multi-pass cell

Post-compression of the GW-level femtosecond pulse in a solid-state multi-pass cell

Divided-pulse Bulk Multi-pass Cell for Generating Sub-50 fs multi-GW Peak Power Pulses

Multi-GW Peak Power Scaling in a Multi-pass Cell by Divided Pulse Scheme

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