Laser-Driven Neutron Generation Realizing Single-Shot Resonance Spectroscopy

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Abstract

Neutrons are powerful tools for investigating the structure and properties of materials used in science and technology. Recently, laser-driven neutron sources (LDNS) have attracted the attention of different communities, from science to industry, in a variety of applications, including radiography, spectroscopy, security, and medicine. However, the laser-driven ion acceleration mechanism for neutron generation and for establishing the scaling law on the neutron yield is essential to improve the feasibility of LDNS. In this paper, we report the mechanism that accelerates ions with spectra suitable for neutron generation. We show that the neutron yield increases with the fourth power of the laser intensity, resulting in the neutron generation of 3×1011 in 4π at a maximum, with 1.1×1019 W cm-2, 900 J, 1.5 ps lasers. By installing a "hand-size"moderator, which is specially designed for the LDNS, it is demonstrated that the efficient generation of epithermal (0.1-100 eV) neutrons enables the single-shot analysis of composite materials by neutron resonance transmission analysis (NRTA). We achieve the energy resolution of 2.3% for 5.19-eV neutrons 1.8 m downstream of the LDNS. This leads to the analysis of elements and isotopes within sub-μs times and allows for high-speed nondestructive inspection.

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APA

Yogo, A., Lan, Z., Arikawa, Y., Abe, Y., Mirfayzi, S. R., Wei, T., … Kodama, R. (2023). Laser-Driven Neutron Generation Realizing Single-Shot Resonance Spectroscopy. Physical Review X, 13(1). https://doi.org/10.1103/PhysRevX.13.011011

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