• Title of article

    Design and fabrication of a CH/Al dual-layer perturbation target for hydrodynamic instability experiments in ICF

  • Author/Authors

    Tang، نويسنده , , Jun and Xie، نويسنده , , Zhiyong and Du، نويسنده , , Ai and Ye، نويسنده , , Junjian and Zhang، نويسنده , , Zhihua and Shen، نويسنده , , Jun and Zhou، نويسنده , , Bin، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2014
  • Pages
    7
  • From page
    466
  • To page
    472
  • Abstract
    A polystyrene (CH)/aluminum (Al) dual-layer perturbation target for hydrodynamic instability experiments in inertial confinement fusion (ICF) was designed and fabricated. The target was composed of a perturbed 40 μm Al foil and a CH layer. The detailed fabrication method consisted of four steps. The 40 μm Al foil was first prepared by roll and polish process; the perturbation patterns were then introduced on the surface of the Al foil by the single-point diamond turning (SPDT) technology; the CH layer was prepared via a simple method which called spin-coating process; finally, the CH layer was directly coated on the perturbation surface of Al foil by a hot-press process to avoid the use of a sticker and to eliminate the gaps between the CH layer and the Al foil. The parameters of the target, such as the perturbation wavelength (T) and perturbation amplitude (A), were characterized by a QC-5000 tool microscope, an alpha-step 500 surface profiler and a NT1100 white light interferometer. The results showed that T and A of the target were about 52 μm and 7.34 μm, respectively. Thickness of the Al foil (H1), thickness of the CH layer (H2), and cross-section of the dual-layer target were characterized by a QC-5000 tool microscope and a scanning electron microscope (SEM). H1 and H2 were about 40 μm and 15 μm, respectively, the cross-sectional photographs of the target showed that the CH layer and the Al foil adhered perfectly with each other.
  • Keywords
    hydrodynamic instability , Dual-layer perturbation target , Single-point diamond turning technology , inertial confinement fusion
  • Journal title
    Fusion Engineering and Design
  • Serial Year
    2014
  • Journal title
    Fusion Engineering and Design
  • Record number

    2370587