XinLiang Wang scite author profile

XinLiang Wang

2Publications

4Citation Statements Received

0Citation Statements Given

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Affiliations

Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences

Publications

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Suppressing scattering-induced nanosecond pre-pulses in Ti:sapphire multi-pass amplifiers

Wang¹,

Bai²,

Liu³

et al. 2022

Opt. Lett.

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In this Letter, we experimentally investigate a new kind of nanosecond pre-pulse, which originates from the bidirectional scattering of crystals in traditional Ti:sapphire multi-pass amplifiers. The experimental results demonstrate that the intensity of scattering-induced pre-pulses is very sensitive to the scattering angle, and the delay time between the pre-pulse and the main pulse is an integer multiple of the light path in each pass of the amplifier. An optimized multi-pass amplifier configuration is proposed, for what is believed to be the first time, to suppress the scattering-induced pre-pulses. The contrast ratio between pre-pulses and the main pulse is enhanced by more than two orders of magnitude, reaching a level of 10−10. This novel multi-pass amplifier configuration is very simple and economical, and provides an effective solution for the temporal contrast enhancement in the nanosecond range.

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Investigation and suppression of pre-pulses on nanosecond time scale in the SULF-1PW laser

et al. 2022

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It is of crucial significance to investigate and suppress pre-pulses on nanosecond time scale because the intense pre-plasma generated by them may have enough time to expand and, thus, cause fatal impact on laser-matter interactions. In this research, we analyze the potential origins of pre-pulses on nanosecond time scale in a typical Ti:sapphire chirped pulse amplification laser system. Based on the analysis, the initial status of these generated pre-pulses in the SULF-1PW laser is measured and investigated. Then different measures, including fine control on the time synchronization and the replacement for the Ti:sapphire, are adopted in the SULF-1PW laser to suppress these pre-pulses with respective origins, which can promote the energy ratio between the main pulse and these pre-pulses by 2–3 orders of magnitude. This research not only improves the temporal contrast of the SULF-1PW laser on nanosecond time scale but also provides beneficial guidance for the design and construction of similar laser facilities.

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XinLiang Wang

Suppressing scattering-induced nanosecond pre-pulses in Ti:sapphire multi-pass amplifiers

Investigation and suppression of pre-pulses on nanosecond time scale in the SULF-1PW laser

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