2020
DOI: 10.1364/oe.385583
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Nonlinear pulse compression to 22 fs at 15.6 µJ by an all-solid-state multipass approach

Abstract: We demonstrate nonlinear compression of pulses at 1.03 µm and repetition rate of 200 kHz generated by a ytterbium fiber laser using two cascaded all-solid-state multipass cells. The pulse duration has been compressed from 460 to 22 fs, corresponding to a compression factor of ∼21. The compressed pulse energy is 15.6 µJ, corresponding to an average power of 3.1 W, and the overall transmission of the two compression stages is 76%. The output beam quality factor is M2 ∼1.2 and the excess intensity noise introduce… Show more

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Cited by 26 publications
(14 citation statements)
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“…Therefore, the usable pulse energy accumulated to 65 µJ which yielded a peak power of 1.1 GW. By contrast to other bulk-MPC or multi-plate experiments [19,20,34],…”
Section: Spectral Broadening and Pulse Compression Experimentsmentioning
confidence: 85%
See 1 more Smart Citation
“…Therefore, the usable pulse energy accumulated to 65 µJ which yielded a peak power of 1.1 GW. By contrast to other bulk-MPC or multi-plate experiments [19,20,34],…”
Section: Spectral Broadening and Pulse Compression Experimentsmentioning
confidence: 85%
“…In contrast, the implementation of our method requires only off-the-shelf optics and enables strong spectral broadening by high B- [16] [17] [18] [25] [11] [12] integrals per pass. Therefore, our compression scheme is a compact alternative to more complex multi-stage setups [12,[19][20][21][22][23] and presents a highly attractive method to generate sub-50 fs pulses from a high-power picosecond laser.…”
Section: Introductionmentioning
confidence: 99%
“…Cascading two bulk‐based nonlinear MPC compression stages has allowed compression of 460 fs pulses down to 22 fs, corresponding to a compression ratio of 21, at 15 µJ output pulse energy. [ 64 ] Since the transmission of each stage is high, it is possible to use three stages to compress 220 fs pulses down to 16 fs, while maintaining a throughput of 60%, at an output pulse energy of 2.6 µJ. [ 60 ] Dispersion management and design of the cell mirrors is increasingly challenging as the output pulse duration decreases, especially because these MPC mirrors must be highly reflective to preserve a high transmission.…”
Section: Experimental Implementations Of Temporal Compression In Mpcsmentioning
confidence: 99%
“…Lately, a new spectral broadening method relying on a waveguide-like periodic assembly consisting of focusing elements (concave dispersive mirrors) and nonlinear media was suggested and demonstrated [7][8][9][10]. Both, all-bulk and gasfilled geometries were successfully realized in high-average and peak power regimes, pushing the broadened spectrum to sub-10 fs Fourier limit and pulse durations to sub-30 fs in a highly robust and simple manner [11][12][13][14][15]. As one of the main advantages of this concept, the sign of the overall net dispersion and its profile including higher order dispersion terms can be readily engineered in the quasi-waveguide.…”
Section: Introductionmentioning
confidence: 99%