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BUCKY Simulations of Z and RHEPP Experiments

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Presentation on theme: "BUCKY Simulations of Z and RHEPP Experiments"— Presentation transcript:

1 BUCKY Simulations of Z and RHEPP Experiments
R.R. Peterson, I.E. Golovkin, and D.A. Haynes University of Wisconsin High Average Power Laser Workshop General Atomics La Jolla, CA April 4 and 5, 2002

2 Pre-shot BUCKY Calculations for Z and RHEPP
Pre-shot BUCKY calculations performed for range of Z and RHEPP parameters. BUCKY calculations for CH and He RHEPP beams on Graphite, W, Re and W-25Re. Be filtered and un-filtered Z x-rays on Graphite.

3 RHEPP Ion Spectra for CH4 and He Shots
RHEPP CH beam peak energies: C++: 1.2 MeV C+: keV H+: keV RHEPP He beam peak energies: He+: 325 keV

4 Poor thermal conductivity for Re leads to enhanced ablation.
Predicted Ablation Depth As a Function of Fluence for CH4 and He RHEPP Beams on Graphite, W, Re, and W-25Re CH beam He beam Poor thermal conductivity for Re leads to enhanced ablation.

5 W Irradiated with RHEPP CH and He and Graphite Irradiated with CH All have a Threshold for Ablation of 5 J/cm2. He RHEPP Beams Ablate More W Than CH; Graphite and W Respond to CH Similarly

6 Filtering of Z W-Wire-Array X-Rays Can Move Spectrum Closer to Direct-Drive Threat Spectrum
Un-Filtered Z at Various Times Filtered and Un-Filtered Z Un-filtered Z X-rays have a large < 50 eV component, particularly at early times. Be and other filters remove this.

7 BUCKY Simulation of Z X-Ray Ablation Experiments of Graphite: Un-filtered Versus Be-Filtered
Carbon BUCKY predicts that Be-Filtered Z X-rays will be more damaging to graphite at a given fluence. Carbon has an absorption edge at 490 eV.

8 Summary: Pre-shot BUCKY Calculations for Z and RHEPP
Pre-shot BUCKY calculations performed for range of Z and RHEPP parameters. BUCKY predicts CH and He RHEPP beams should see a threshold for ablation in W of 5 J/cm2. Graphite has a lower threshold for He than for CH4. Re has more ablation for both beams because of its poor conductivity. Be filtering of Z x-rays increases the ablation to Graphite at a given fluence.

9 Post-Shot Damage Pattern Inside Box Sample Damage Pattern Collimator
Back-up #1 Filter Aperture

10 BUCKY is a Flexible 1-D Lagrangian Radiation-Hydrodynamics Code: Used to model first wall heating, vaporization and re-condensation 1-D Lagrangian MHD (spherical, cylindrical or slab). Thermal conduction with diffusion. Applied electrical current with magnetic field and pressure calculation. Radiation transport with multi-group flux-limited diffusion, method of short characteristics, and variable Eddington. Non-LTE CRE line transport. Opacities and equations of state from EOSOPA, IONMIX or SESAME. Thermonuclear burn (DT,DD,DHe3) with in-flight reactions. Fusion product transport; time-dependent charged particle tracking, neutron energy deposition. Applied energy sources: time and energy dependent ions, electrons, x-rays and lasers. Moderate energy density physics: melting, vaporization, and thermal conduction in solids and liquids. Benchmarking: x-ray burn-through and shock experiments on Nova and Omega, x-ray vaporization, RHEPP melting and vaporization, PBFA-II K emission, … Platforms: UNIX, PC, MAC Back-up #2

11 Sample BUCKY Simulation of Z X-Ray Ablation Experiments
Back-up #3 VISRAD (Prism Computational Sciences) calculation of source geometry for Z shot 783. Assumed Sample is in far-field where I1/r2. Slab BUCKY (Univ. of Wisconsin) simulation. Graphite 1 cm Z shot #783

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