High performance capsule implosions driven by the Z-pinch dynamic hohlraum

The Z-pinch dynamic hohlraum (ZPDH) is a high-power x-ray source that has been used in a variety of high energy-density experiments including inertial confinement fusion (ICF) studies. The system consists of a tungsten wire-array Z pinch that implodes onto a low-density CH2 foam converter launching a radiating shock that heats the hohlraum to radiation temperatures 200 eV. Through time-gated pinhole camera measurements, the mean shock speed is measured from 28 experiments to be 326 +/- 4 mu m ns(-1) with a shot-to-shot standard deviation of 7%. Broad-band x-ray measurements indicate that the shot-to-shot reproducibility in the power emission and pulse-shape of the source shock is 15% and similar to 5%, respectively. Calculations have shown that an ICF capsule placed at the center of the foam in the ZPDH can absorb 40 kJ of x-ray energy, within a factor of 4 of the energy believed sufficient for ICF ignition. The capsule types imploded by the ZPDH have evolved over four years culminating in a design that produces record indirect-drive DD thermonuclear neutron yields of up to 3.5E11.