Mitigating laser imprint with a foam overcoating

Abstract: In direct-drive inertial confinement fusion, laser imprint can cause areal density perturbations on the target shell that seed the Rayleigh–Taylor instability and further degrade the implosion. To mitigate the effect of laser imprint, a foam overcoating layer outside the target shell has been suggested to increase the thermal smoothing of the conduction region (between the ablation front and the critical density surface) and mass ablation of the ablation front. In this paper, we use a two-dimensional radiation… Show more

“…This long-wavelength perturbation is difficult to eliminate by pulse shaping alone. Our group is also working on high- Z -doping [ 35 ] and foam-coated targets [ 36 ] for DCI. It is hoped that this long-wavelength perturbation can be handled by joint optimization in the future.…”

Laser pulse shape designer for direct-drive inertial confinement fusion implosions

“…This long-wavelength perturbation is difficult to eliminate by pulse shaping alone. Our group is also working on high- Z -doping [ 35 ] and foam-coated targets [ 36 ] for DCI. It is hoped that this long-wavelength perturbation can be handled by joint optimization in the future.…”

Laser pulse shape designer for direct-drive inertial confinement fusion implosions