Acceleration of 60 MeV proton beams in the commissioning experiment of the SULF-10 PW laser

We report the experimental results of the commissioning phase in the 10 PW laser beamline of the Shanghai Superintense Ultrafast Laser Facility (SULF). The peak power reaches 2.4 PW on target without the last amplifying during the experiment. The laser energy of 72 ± 9 J is directed to a focal spot...

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Published inHigh power laser science and engineering Vol. 10; pp. 1 - 20
Main Authors Li, A. X., Qin, C. Y., Zhang, H., Li, S., Fan, L. L., Wang, Q. S., Xu, T. J., Wang, N. W., Yu, L. H., Xu, Y., Liu, Y. Q., Wang, C., Wang, X. L., Zhang, Z. X., Liu, X. Y., Bai, P. L., Gan, Z. B., Zhang, X. B., Wang, X. B., Fan, C., Sun, Y. J., Tang, Y. H., Yao, B., Liang, X. Y., Leng, Y. X., Shen, B. F., Ji, L. L., Li, R. X., Xu, Z. Z.
Format Journal Article
LanguageEnglish
Published Cambridge, UK Cambridge University Press 03.08.2022
Subjects
Commissioning
Copper
Diameters
Energy
Experiments
Gamma rays
Laboratories
Lasers
Metal foils
Optimization
Proton beams
Pulse duration
Quality improvement
Sheaths
Target thickness
Ultrafast lasers
laser–plasma interaction
high-energy proton source
ultraintense lasers
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Summary:We report the experimental results of the commissioning phase in the 10 PW laser beamline of the Shanghai Superintense Ultrafast Laser Facility (SULF). The peak power reaches 2.4 PW on target without the last amplifying during the experiment. The laser energy of 72 ± 9 J is directed to a focal spot of approximately 6 μm diameter (full width at half maximum) in 30 fs pulse duration, yielding a focused peak intensity around 2.0 × 1021 W/cm2. The first laser-proton acceleration experiment is performed using plain copper and plastic targets. High-energy proton beams with maximum cut-off energy up to 62.5 MeV are achieved using copper foils at the optimum target thickness of 4 μm via target normal sheath acceleration. For plastic targets of tens of nanometers thick, the proton cut-off energy is approximately 20 MeV, showing ring-like or filamented density distributions. These experimental results reflect the capabilities of the SULF-10 PW beamline, for example, both ultrahigh intensity and relatively good beam contrast. Further optimization for these key parameters is underway, where peak laser intensities of 1022–1023 W/cm2 are anticipated to support various experiments on extreme field physics.
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content type line 14
ISSN:2095-4719
2052-3289
DOI:10.1017/hpl.2022.17