0.351 micron Laser Beam propagation in High-temperature Plasmas

Abstract: A study of the laser-plasma interaction processes have been performed in plasmas that are created to emulate the plasma conditions in indirect drive inertial confinement fusion targets. The plasma emulator is produced in a gas-filled hohlraum; a blue 351-nm laser beam propagates along the axis of the hohlraum interacting with a high-temperature (Te = 3.5 keV), dense (ne = 5 × 10 20 cm −3 ), long-scale length (L ∼ 2 mm) plasma. Experiments at these conditions have demonstrated that the interaction beam produces… Show more

“…These experiments show that, when LPI is not significant, RMHD codes such as HYDRA [6] can accurately model laser energy deposition [7], [8]. However, at MagLIF-relevant scale-lengths and parameters, there are no reported experiments to identify the target and drive conditions where undesirable LPI become important, and thus hydrodynamic simulations have never been validated for MagLIF preheat physics.…”

Laser propagation measurements in long-scale-length underdense plasmas relevant to magnetized liner inertial fusion

“…These experiments show that, when LPI is not significant, RMHD codes such as HYDRA [6] can accurately model laser energy deposition [7], [8]. However, at MagLIF-relevant scale-lengths and parameters, there are no reported experiments to identify the target and drive conditions where undesirable LPI become important, and thus hydrodynamic simulations have never been validated for MagLIF preheat physics.…”

Laser propagation measurements in long-scale-length underdense plasmas relevant to magnetized liner inertial fusion