High-flux neutron generation by laser-accelerated ions from single-and double-layer targets - Archive ouverte HAL
Article Dans Une Revue Scientific Reports Année : 2022

High-flux neutron generation by laser-accelerated ions from single-and double-layer targets

Résumé

Contemporary ultraintense, short-pulse laser systems provide extremely compact setups for the production of high-flux neutron beams, such as those required for nondestructive probing of dense matter, research on neutron-induced damage in fusion devices or laboratory astrophysics studies. Here, by coupling particle-in-cell and Monte Carlo numerical simulations, we examine possible strategies to optimise neutron sources from ion-induced nuclear reactions using 1-PW, 20-fs-class laser systems. To improve the ion acceleration, the laser-irradiated targets are chosen to be ultrathin solid foils, either standing alone or preceded by a plasma layer of near-critical density to enhance the laser focusing. We compare the performance of these single-and double-layer targets, and determine their optimum parameters in terms of energy and angular spectra of the accelerated ions. These are then sent into a converter to generate neutrons via nuclear reactions on beryllium and lead nuclei. Overall, we identify configurations that result in neutron yields as high as ∼ 10$^{10}$ n sr$^{−1}$ in ∼ 1-cm-thick converters or instantaneous neutron fluxes above 10$^{23}$ n cm$^{−2}$ s$^{−1}$ at the backside of ≲ 100-µm-thick converters. Considering a realistic repetition rate of one laser shot per minute, the corresponding time-averaged neutron yields are predicted to reach values (≳ 10$^7$ n sr$^{−1}$ s$^{−1}$) well above the current experimental record, and this even with a mere thin foil as a primary target. A further increase in the time-averaged yield up to above 10$^8$ sr$^{−1}$ s$^{−1}$ is foreseen using double-layer targets.
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hal-03862769 , version 1 (21-11-2022)

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Vojtěch Horný, Sophia Chen, Xavier Davoine, Vincent Lelasseux, Laurent Gremillet, et al.. High-flux neutron generation by laser-accelerated ions from single-and double-layer targets. Scientific Reports, 2022, 12 (1), pp.19767. ⟨10.1038/s41598-022-24155-z⟩. ⟨hal-03862769⟩
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