Simulations of gas-filled hohlraum targets on the OMEGA laser

Recent experiments on the OMEGA laser facility examined x-ray drive and hot-electron generation in gold hohlraums filled with CH gas mixtures of varying densities. Some hohlraums also had CH-lined laser entrance holes. Radiation-hydrodynamics simulations using the code HYDRA show that early-time hot electrons likely originated in the blast-wave driven by the explosion of the hohlraum windows. Hot electrons also occurred during the main drive as the hohlraum bulk plasma approached $n_e = 0.25 n_c$. The plasma waves that generate hot electrons can be driven by Stimulated Raman Scattering (SRS) or by the two-plasmon decay instability. Comparisons between simulations and SRS backscatter data can help determine the source of the hot electrons. These results can inform the design of the laser pulse for NIF ignition hohlraums.