Synthetic nuclear diagnostics for inferring plasma properties of inertial confinement fusion implosions

A suite of synthetic nuclear diagnostics has been developed to post-process radiation hydrodynamics simulations performed with the code Chimera. These provide experimental observables based on simulated capsule properties and are used to assess alternative experimental and data analysis techniques. These diagnostics include neutron spectroscopy, primary and scattered neutron imaging, neutron activation, gamma-ray time histories and carbon gamma-ray imaging. Novel features of the neutron spectrum have been analysed to infer plasma parameters. The nT and nD backscatter edges have been shown to provide a shell velocity measurement. Areal density asymmetries created by low mode perturbations have been inferred from the slope of the downscatter spectrum down to 10 MeV. Neutron activation diagnostics showed significant aliasing of high mode areal density asymmetries when observing a capsule implosion with 3D multimode perturbations applied. Carbon gamma-ray imaging could be used to image the ablator at a high convergence ratio. Time histories of both the fusion and carbon gamma signals showed a greater time difference between peak intensities for the perturbed case when compared to a symmetric simulation. Published by AIP Publishing.