High repetition-rate 0.5 Hz broadband neutron source driven by the Advanced Laser Light Source - Département de physique
Article Dans Une Revue Physics of Plasmas Année : 2024

High repetition-rate 0.5 Hz broadband neutron source driven by the Advanced Laser Light Source

Résumé

Neutron beams are an essential tool to investigate material structure and perform nondestructive analysis, as they give unique access to element composition, thus ideally complementing density analysis allowed by standard x-rays investigation. Laser-driven neutron sources, though compact and cost-effective, currently have lower average flux than conventional neutron sources, due to the limited repetition rate of the lasers used so far. However, advancements in laser technology allow nowadays to address this challenge. Here, we report results obtained at the Advanced Laser Light Source characterizing stable production of broadband (0.1–2 MeV) neutrons produced at a high repetition rate (0.5 Hz). The interaction of laser pulses of 22 fs duration and 3.2 J on-target energy with 2-μm-thick tantalum targets produced protons in the Target Normal Sheath Acceleration (TNSA) regime up to 7.3 MeV. These protons were subsequently converted into neutrons by (p,n) reactions in lithium fluoride (LiF). Activation measurements and bubble detectors were used to characterize neutron emissions, with a neutron fluence of up to ∼1.4×105 neutrons/shot/sr and energies mainly between a few hundred of kilo-electron volt and 2 MeV. The total neutron yield was ∼5×105 neutrons/shot. This paves the way for numerous applications, e.g., in homeland security, materials science, or cultural heritage.

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Dates et versions

hal-04797682 , version 1 (22-11-2024)

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R. Lelièvre, E. Catrix, S. Vallières, S. Fourmaux, Amokrane Allaoua, et al.. High repetition-rate 0.5 Hz broadband neutron source driven by the Advanced Laser Light Source. Physics of Plasmas, 2024, 31 (9), ⟨10.1063/5.0218582⟩. ⟨hal-04797682⟩
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