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Factor 30 Pulse Compression by Hybrid Multipass Multiplate Spectral Broadening

Marcus Seidel Prannay Balla Chen Li Gunnar Arisholm Lutz Winkelmann Ingmar Hartl and Christoph M. Heyl

Marcus Seidel, Prannay Balla, Chen Li, Gunnar Arisholm, Lutz Winkelmann, Ingmar Hartl, and Christoph M. Heyl. 2022: Factor 30 Pulse Compression by Hybrid Multipass Multiplate Spectral Broadening. 超快科学, 2022(1). doi: 10.34133/2022/9754919
引用本文: Marcus Seidel, Prannay Balla, Chen Li, Gunnar Arisholm, Lutz Winkelmann, Ingmar Hartl, and Christoph M. Heyl. 2022: Factor 30 Pulse Compression by Hybrid Multipass Multiplate Spectral Broadening. 超快科学, 2022(1). doi: 10.34133/2022/9754919
Marcus Seidel, Prannay Balla, Chen Li, Gunnar Arisholm, Lutz Winkelmann, Ingmar Hartl, and Christoph M. Heyl. 2022: Factor 30 Pulse Compression by Hybrid Multipass Multiplate Spectral Broadening. Ultrafast Science, 2022(1). doi: 10.34133/2022/9754919
Citation: Marcus Seidel, Prannay Balla, Chen Li, Gunnar Arisholm, Lutz Winkelmann, Ingmar Hartl, and Christoph M. Heyl. 2022: Factor 30 Pulse Compression by Hybrid Multipass Multiplate Spectral Broadening. Ultrafast Science, 2022(1). doi: 10.34133/2022/9754919

Factor 30 Pulse Compression by Hybrid Multipass Multiplate Spectral Broadening

doi: 10.34133/2022/9754919
基金项目: 

We thank DESY (Hamburg, Germany), a member of the Helmholtz Association HGF, for the provision of experimental facilities.

详细信息
    通讯作者:

    Correspondence should be addressed to Marcus Seidel

Factor 30 Pulse Compression by Hybrid Multipass Multiplate Spectral Broadening

Funds: 

We thank DESY (Hamburg, Germany), a member of the Helmholtz Association HGF, for the provision of experimental facilities.

  • 摘要: As ultrafast laser technology advances towards ever higher peak and average powers, generating sub-50 fs pulses from laser architectures that exhibit best power-scaling capabilities remains a major challenge. Here, we present a very compact and highly robust method to compress 1.24 ps pulses to 39 fs by means of only a single spectral broadening stage which neither requires vacuum parts nor custom-made optics. Our approach is based on the hybridization of the multiplate continuum and the multipass cell spectral broadening techniques. Their combination leads to significantly higher spectral broadening factors in bulk material than what has been reported from either method alone. Moreover, our approach efficiently suppresses adverse features of single-pass bulk spectral broadening. We use a burst-mode Yb:YAG laser emitting pulses with 80 MW peak power that are enhanced to more than 1 GW after postcompression. With only 0.19% rms pulse-to-pulse energy fluctuations, the technique exhibits excellent stability. Furthermore, we have measured state-of-the-art spectral-spatial homogeneity and good beam quality of M^2=1.2 up to a spectral broadening factor of 30. Due to the method’s simplicity, compactness, and scalability, it is highly attractive for turning a picosecond laser into an ultrafast light source that generates pulses of only a few tens of femtoseconds duration.
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出版历程
  • 收稿日期:  2021-10-23
  • 修回日期:  2022-02-15
  • 刊出日期:  2022-04-01

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