Foam Au driven by 4$Ï$ - 2$Ï$ ignition laser pulse for inertial confinement fusion
arXiv:1704.00178 · doi:10.1063/1.4983329
Abstract
Green light (2$Ï$) has the potential to drive ignition target for laser fusion with significantly more energy than blue light (3$Ï$) and a relatively higher damage threshold for the optic components in the final optic assembly, but it has issues of a relatively low laser to x-ray conversion efficiency and a hard x-ray spectrum as compared to 3$Ï$. In this paper, we propose to drive a foam hohlraum wall with an ignition laser pulse by taking a 4$Ï$ laser at the pre-pulse and a 2$Ï$ laser at the main-pulse, called as 4$Ï$ - 2$Ï$ ignition pulse. This novel design has the following advantages: (1) benefiting from 2$Ï$ of its relatively high energy output and low damage threshold during main-pulse, (2) benefiting from foam in its relatively high laser to x-ray conversion efficiency and relatively low M-band fraction in re-emission, (3) benefiting from 4$Ï$ of its low LPI during pre-pulse. From our 1D simulations with Au material, the laser to x-ray conversion in a foam driven by 4$Ï$ - 2$Ï$ pulse has an increase of $28\%$ as compared to a solid target driven by 3$Ï$ with the same pulse shape. The relatively thin optical depth of foam is one of the main reasons for the increase of laser to x-ray conversion efficiency inside a foam target.
7 pages, 8 figures