Data versus Simulations for Gated LEH Images on NIF ICF Campaigns
ORAL
Abstract
Laser entrance hole (LEH) size in a hohlraum has been shown to be important in interpreting the radiation drive [1] in indirect drive ICF experiments. However the time-dependent LEH size has not been routinely measured until the deployment of the G-LEH diagnostic [2] at the National Ignition Facility (NIF), which can provide 4-16 images from a single shot. We present a systematic study of measured data vs. simulations for the CH campaigns on NIF for gas fill densities of 0.3 to 0.6 mg/cc. We compare the measured LEH size vs. time to simulations using several different models for the atomic physics and electron heat transport. The comparison with the growth of the laser-heated gold plasma bubble, the change in brightness of inner beam spots due to time-varying cross beam energy transfer, and plasma instability growth near the hohlraum wall will also be discussed.
[1]. S MacLaren, M. Schneider, K. Widmann, et al., PRL 112 105003 (2014)
[2]. H. Chen, N. Palmer, P. Bell, et al., RSI, in press (2018)
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Presenters
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Hui Chen
Lawrence Livermore Natl Lab, Lawrence Livermore National Laboratory
Authors
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Hui Chen
Lawrence Livermore Natl Lab, Lawrence Livermore National Laboratory
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O. Jones
Lawrence Livermore Natl Lab, Lawrence Livermore Natl Lab, Lawrence Livermore Natl Lab, LLNL
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Denise E Hinkel
Lawrence Livermore National Laboratory, Lawrence Livermore Natl Lab
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Benjamin Bachmann
Lawrence Livermore Natl Lab, Lawrence Livermore National Lab
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Tilo Doeppner
Lawrence Livermore Natl Lab
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Annie Kritcher
Lawrence Livermore Natl Lab
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Leonard C Jarrott
Lawrence Livermore Natl Lab
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Nathan E. Palmer
Lawrence Livermore Natl Lab
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Louisa A Pickworth
Lawrence Livermore Natl Lab
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Joseph E Ralph
Lawrence Livermore Natl Lab, Lawrence Livermore National Laboratory
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Marilyn Beth Schneider
Lawrence Livermore Natl Lab, Lawrence Livermore National Lab, Lawrence Livermore National Laboratory
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Marc Vandenboomgaerde
CEA DAM/DIF, CEA