Using liquid crystal targets for laser-driven neutron generation at Scarlet

ORAL

Abstract

We present results of an experimental run held at the Scarlet Laser Facility in collaboration with Los Alamos National Laboratory. A standard liquid crystal compound, 4-Cyano-4′-octylbiphenyl (8CB), was resynthesized to include >95% deuterium and used for targets ranging from 20nm-1µm. The Scarlet laser (λ = 815nm, τ = 40fs) was operated at >8J with two target AOI, 22.5° and 35°, in a pitcher-catcher setup using beryllium placed 5cm away from target center. Neutron time of flight (nTOF) detectors were placed at varying distances and angles, including target normal, for energy measurements. BubbleTech dosimeters were used to measure the neutron flux. Results indicate neutron production of more than 10 MeV peak energy and flux of up to 107 n/Sr.

*This work was supported by DOE Office of Science, Fusion Energy Sciences under Contract Nos. DE-SC0022092 and DE-SC0022094 as well as LaserNetUS under contracts DE-SC0021231.

Presenters

  • German Tiscareno

    • Ohio State University

Authors

  • German Tiscareno

    • Ohio State University

  • Brady Unzicker

    • The Ohio State University
    • Ohio State University

  • David Hanggi

    • Ohio State University

  • Pedro Spingola

    • Ohio State University

  • Paul W Peterson

    • Los Alamos National Laboratory

  • Ryan K O'Donnell

    • Ohio State University

  • Alexander J Frye

    • Ohio State University

  • Derek Nasir

    • Ohio State University

  • Nicholas Czapla

    • Ohio State University

  • Rebecca L Daskalova

    • Ohio State Univ - Columbus

  • Ali Rahimi

    • Ohio State University

  • Douglass W Schumacher

    • Ohio State University

  • Cort C Gautier

    • Los Alamos National Laboratory, Los Alamos, NM 87544, USA
    • Los Alamos National Laboratory
    • Los Alamos National Laboratory, USA