Efficient and Repetitive Neutron Generation by Double-Laser-Pulse Driven Photonuclear Reaction

A short and high-intensity neutron pulse can be produced efficiently by using photonuclear reactions caused by Bremsstrahlung hard X-rays in a lase-irradiated high-Z target. The efficient and repetitive neutron generation was demonstrated with the combination of 1 Hz, 0.5 J, 25 fs, 5 × 1019 W/cm2 la...

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Bibliographic Details
Published in:Plasma and Fusion Research 2018/02/15, Vol.13, pp.2404009-2404009
Main Authors: ARIKAWA, Yasunobu, KATO, Yusuke, ABE, Yuki, MATSUBARA, Shuto, KISHIMOTO, Hidetaka, NAKAJIMA, Nozomi, MORACE, Alessio, YOGO, Akifumi, NISHIMURA, Hiroaki, NAKAI, Mitsuo, FUJIOKA, Shinsuke, AZECHI, Hiroshi, MIMA, Kunioki, INOUE, Shunsuke, NAKAMIYA, Yoshihide, TERAMOTO, Kensuke, HASHIDA, Masaki, SAKABE, Shuji
Format: Article
Language:English
Subjects:
high intensity laser
laser driven neutron source
photonuclear reaction
relativistic electron acceleration
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Summary:A short and high-intensity neutron pulse can be produced efficiently by using photonuclear reactions caused by Bremsstrahlung hard X-rays in a lase-irradiated high-Z target. The efficient and repetitive neutron generation was demonstrated with the combination of 1 Hz, 0.5 J, 25 fs, 5 × 1019 W/cm2 laser pulses and a rotating tungsten disc targe. Here we applied double laser pulse irradiation scheme to increase the neutron generation efficiency. The first low-intensity laser pulse produces a long-scale under-critical-density plasma on the tungsten target surface prior to the second pulse irradiatio. High energy electrons above the ponderomotive scaling value are accelerated by the second hig-intensity pulse in the preformed plasm, this results in the increment of hard X-ray photons and photonuclear neutron. 3.5 × 104 neutron/pulse was obtained with optimized laser irradiation conditions.
ISSN:1880-6821
1880-6821
DOI:10.1585/pfr.13.2404009