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Laser-plasma interaction in ignition relevant plasmas: benchmarking our 3D modelling capabilities versus recent experiments

Conference ·
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We have developed a new target platform to study Laser Plasma Interaction in ignition-relevant condition at the Omega laser facility (LLE/Rochester)[1]. By shooting an interaction beam along the axis of a gas-filled hohlraum heated by up to 17 kJ of heater beam energy, we were able to create a millimeter-scale underdense uniform plasma at electron temperatures above 3 keV. Extensive Thomson scattering measurements allowed us to benchmark our hydrodynamic simulations performed with HYDRA [1]. As a result of this effort, we can use with much confidence these simulations as input parameters for our LPI simulation code pF3d [2]. In this paper, we show that by using accurate hydrodynamic profiles and full three-dimensional simulations including a realistic modeling of the laser intensity pattern generated by various smoothing options, fluid LPI theory reproduces the SBS thresholds and absolute reflectivity values and the absence of measurable SRS. This good agreement was made possible by the recent increase in computing power routinely available for such simulations.

Research Organization:
Lawrence Livermore National Laboratory (LLNL), Livermore, CA
Sponsoring Organization:
USDOE
DOE Contract Number:
W-7405-ENG-48
OSTI ID:
922308
Report Number(s):
UCRL-PROC-235232
Country of Publication:
United States
Language:
English

References (6)

On the dominant and subdominant behavior of stimulated Raman and Brillouin scattering driven by nonuniform laser beams journal December 1998
Ideal Laser-Beam Propagation through High-Temperature Ignition Hohlraum Plasmas journal February 2007
Experiments and multiscale simulations of laser propagation through ignition-scale plasmas journal September 2007
Laser beam propagation through inertial confinement fusion hohlraum plasmas journal May 2007
Role of hydrodynamics simulations in laser-plasma interaction predictive capability journal May 2007
Intensity Limits for Propagation of 0.527     μ m Laser Beams through Large-Scale-Length Plasmas for Inertial Confinement Fusion journal March 2005

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Related Subjects

42 ENGINEERING
BENCHMARKS
ELECTRON TEMPERATURE
HEATERS
HYDRA
HYDRODYNAMICS
IGNITION
LASERS
PLASMA
REFLECTIVITY
SIMULATION
TARGETS
THOMSON SCATTERING