Towards direct nonlinear compression of long-pulse lasers to the femtosecond regime

Beaufort, Gaspard; Tajalli Seifi, Ayhan; Hartl, Ingmar; Hariton, Victor; Seidel, Marcus; Jimenez De la vega, Nayla Esmeralda

Conference Presentation

PUBDB-2025-00731

Towards direct nonlinear compression of long-pulse lasers to the femtosecond regime

Beaufort, G.Extern*DESY* ; Jimenez De la vega, N. E.Extern*DESY* ; Hariton, V.DESY* ; Tajalli Seifi, A.DESY* ; Hartl, I.DESY* ; Seidel, M. (Corresponding author)Extern*DESY*

2025

SPIE Photonics West, San Francsico, USA, 25 Jan 2025 - 30 Jan 2025

Abstract: A concept to efficiently transfer energetic near-nanosecond pulses to the sub-picosecond scale is proposed: Pre-shaped pulses are sent into multi-mirror multi-pass cells which enable km-scale nonlinear propagation. In this way, the initial pulse bandwidth can be extended by more than three orders of magnitude. To verify the concept, spectral broadening of 100-mJ, 300-ps pulses to a sub-300 fs transform-limit in a 1-m diameter multi-pass cell was simulated. Moreover, an 11-mirror cell was set-up and 300MW peak power pulses were spectrally broadened in air over 297 passes. The experiments showed that excellent beam quality and high-power transmission can be obtained in the investigated multi-mirror arrangements. The concept presents a new gateway for industrial mature, high-power lasers to the ultrafast regime and is, for instance, attractive for high repetition rate laser-particle acceleration applications.

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