Global characterization of a laser-generated neutron source

D. P. Higginson; R. Lelièvre; L. Vassura; M. M. Gugiu; M. Borghesi; L. A. Bernstein; D. L. Bleuel; B. L. Goldblum; A. Green; F. Hannachi; S. Kar; S. Kisyov; L. Quentin; M. Schroer; M. Tarisien; O. Willi; P. Antici; F. Negoita; A. Allaoua; J. Fuchs

doi:10.1017/S0022377824000618

Global characterization of a laser-generated neutron source

D. P. Higginson, R. Lelièvre, L. Vassura, M. M. Gugiu, M. Borghesi, L. A. Bernstein, D. L. Bleuel, B. L. Goldblum, A. Green, F. Hannachi, S. Kar, S. Kisyov, L. Quentin, M. Schroer, M. Tarisien, O. Willi, P. Antici, F. Negoita, A. Allaoua, J. Fuchs

Research output: Contribution to journal › Article › peer-review

Abstract

Laser-driven neutron sources are routinely produced by the interaction of laser-accelerated protons with a converter. They present complementary characteristics to those of conventional accelerator-based neutron sources (e.g. short pulse durations, enabling novel applications like radiography). We present here results from an experiment aimed at performing a global characterization of the neutrons produced using the Titan laser at the Jupiter Laser Facility (Livermore, USA), where protons were accelerated from 23 m thick plastic targets and directed onto a LiF converter to produce neutrons. For this purpose, several diagnostics were used to measure these neutron emissions, such as CR-39, activation foils, time-of-flight detectors and direct measurement of residual activity in the LiF converters. The use of these different, independently operating diagnostics enables comparison of the various measurements performed to provide a robust characterization. These measurements led to a neutron yield of neutrons per shot with a modest angular dependence, close to that simulated.

Original language	English
Article number	905900308
Journal	Journal of Plasma Physics
Volume	90
Issue number	3
DOIs	https://doi.org/10.1017/S0022377824000618
Publication status	Published - 3 Jun 2024

Keywords

intense particle beams
plasma applications
plasma diagnostics

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10.1017/S0022377824000618

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Higginson, D. P., Lelièvre, R., Vassura, L., Gugiu, M. M., Borghesi, M., Bernstein, L. A., Bleuel, D. L., Goldblum, B. L., Green, A., Hannachi, F., Kar, S., Kisyov, S., Quentin, L., Schroer, M., Tarisien, M., Willi, O., Antici, P., Negoita, F., Allaoua, A., & Fuchs, J. (2024). Global characterization of a laser-generated neutron source. Journal of Plasma Physics, 90(3), Article 905900308. https://doi.org/10.1017/S0022377824000618

@article{e9a9e1a874824791af34036a76da44e6,

title = "Global characterization of a laser-generated neutron source",

abstract = "Laser-driven neutron sources are routinely produced by the interaction of laser-accelerated protons with a converter. They present complementary characteristics to those of conventional accelerator-based neutron sources (e.g. short pulse durations, enabling novel applications like radiography). We present here results from an experiment aimed at performing a global characterization of the neutrons produced using the Titan laser at the Jupiter Laser Facility (Livermore, USA), where protons were accelerated from 23 m thick plastic targets and directed onto a LiF converter to produce neutrons. For this purpose, several diagnostics were used to measure these neutron emissions, such as CR-39, activation foils, time-of-flight detectors and direct measurement of residual activity in the LiF converters. The use of these different, independently operating diagnostics enables comparison of the various measurements performed to provide a robust characterization. These measurements led to a neutron yield of neutrons per shot with a modest angular dependence, close to that simulated.",

keywords = "intense particle beams, plasma applications, plasma diagnostics",

author = "Higginson, \{D. P.\} and R. Leli{\`e}vre and L. Vassura and Gugiu, \{M. M.\} and M. Borghesi and Bernstein, \{L. A.\} and Bleuel, \{D. L.\} and Goldblum, \{B. L.\} and A. Green and F. Hannachi and S. Kar and S. Kisyov and L. Quentin and M. Schroer and M. Tarisien and O. Willi and P. Antici and F. Negoita and A. Allaoua and J. Fuchs",

note = "Publisher Copyright: {\textcopyright} 2024 The Author(s). Published by Cambridge University Press.",

year = "2024",

month = jun,

day = "3",

doi = "10.1017/S0022377824000618",

language = "English",

volume = "90",

journal = "Journal of Plasma Physics",

issn = "0022-3778",

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Higginson, DP, Lelièvre, R, Vassura, L, Gugiu, MM, Borghesi, M, Bernstein, LA, Bleuel, DL, Goldblum, BL, Green, A, Hannachi, F, Kar, S, Kisyov, S, Quentin, L, Schroer, M, Tarisien, M, Willi, O, Antici, P, Negoita, F, Allaoua, A & Fuchs, J 2024, 'Global characterization of a laser-generated neutron source', Journal of Plasma Physics, vol. 90, no. 3, 905900308. https://doi.org/10.1017/S0022377824000618

TY - JOUR

T1 - Global characterization of a laser-generated neutron source

AU - Higginson, D. P.

AU - Lelièvre, R.

AU - Vassura, L.

AU - Gugiu, M. M.

AU - Borghesi, M.

AU - Bernstein, L. A.

AU - Bleuel, D. L.

AU - Goldblum, B. L.

AU - Green, A.

AU - Hannachi, F.

AU - Kar, S.

AU - Kisyov, S.

AU - Quentin, L.

AU - Schroer, M.

AU - Tarisien, M.

AU - Willi, O.

AU - Antici, P.

AU - Negoita, F.

AU - Allaoua, A.

AU - Fuchs, J.

PY - 2024/6/3

Y1 - 2024/6/3

N2 - Laser-driven neutron sources are routinely produced by the interaction of laser-accelerated protons with a converter. They present complementary characteristics to those of conventional accelerator-based neutron sources (e.g. short pulse durations, enabling novel applications like radiography). We present here results from an experiment aimed at performing a global characterization of the neutrons produced using the Titan laser at the Jupiter Laser Facility (Livermore, USA), where protons were accelerated from 23 m thick plastic targets and directed onto a LiF converter to produce neutrons. For this purpose, several diagnostics were used to measure these neutron emissions, such as CR-39, activation foils, time-of-flight detectors and direct measurement of residual activity in the LiF converters. The use of these different, independently operating diagnostics enables comparison of the various measurements performed to provide a robust characterization. These measurements led to a neutron yield of neutrons per shot with a modest angular dependence, close to that simulated.

AB - Laser-driven neutron sources are routinely produced by the interaction of laser-accelerated protons with a converter. They present complementary characteristics to those of conventional accelerator-based neutron sources (e.g. short pulse durations, enabling novel applications like radiography). We present here results from an experiment aimed at performing a global characterization of the neutrons produced using the Titan laser at the Jupiter Laser Facility (Livermore, USA), where protons were accelerated from 23 m thick plastic targets and directed onto a LiF converter to produce neutrons. For this purpose, several diagnostics were used to measure these neutron emissions, such as CR-39, activation foils, time-of-flight detectors and direct measurement of residual activity in the LiF converters. The use of these different, independently operating diagnostics enables comparison of the various measurements performed to provide a robust characterization. These measurements led to a neutron yield of neutrons per shot with a modest angular dependence, close to that simulated.

KW - intense particle beams

KW - plasma applications

KW - plasma diagnostics

U2 - 10.1017/S0022377824000618

DO - 10.1017/S0022377824000618

M3 - Article

AN - SCOPUS:85195454005

SN - 0022-3778

VL - 90

JO - Journal of Plasma Physics

JF - Journal of Plasma Physics

IS - 3

M1 - 905900308

ER -

Global characterization of a laser-generated neutron source

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Keywords

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