【 摘 要 】

A novel platform for nuclear physics experiments has been developed on the high-energy, short-pulse OMEGA EP Laser System. Planar foil targets are irradiated with a 10-ps, 1-kJ infrared beam focused to an intensity of the order of 10(18) W/cm(2). Relativistic electrons generated in the laser-target interaction escape the target, generating a very large electrostatic field, which extracts ions from the target's back surface and accelerates them to MeV energies. The energetic ion flow from the back side of this primary target creates neutrons and charged particles through nuclear reactions in a secondary target placed in the ion flow. Charged-particle detectors were used to measure the energy spectra of the ions. The energy spectrum of the neutrons generated in the secondary target was measured using scintillator-based neutron time-of-flight detectors. First experiments to validate the performance of this setup studied d(d,n)He-3 and Be-9(d,n)B-10 reactions. This experimental platform is suitable especially for survey-type studies of nuclear reactions and for reactions that involve rare or radioactive ions like tritium.

【 授权许可】

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Files	Size	Format	View
10_1016_j_nimb_2019_05_073.pdf	3398KB	PDF	download