Assessment of Model Confidence of a Laser Source Model in xRAGE Using Omega Direct-Drive Implosion Experiments

IF 0.5 Q4 ENGINEERING, MECHANICAL
B. Wilson, A. Koskelo
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引用次数: 4

Abstract

Los Alamos National Laboratory is interested in developing high-energy-density physics validation capabilities for its multiphysics code xRAGE. xRAGE was recently updated with the laser package Mazinisin to improve predictability. We assess the current implementation and coupling of the laser package via validation of laser-driven, direct-drive spherical capsule experiments from the Omega laser facility. The ASME V&V 20-2009 standard is used to determine the model confidence of xRAGE, and considerations for high-energy-density physics are identified. With current modeling capabilities in xRAGE, the model confidence is overwhelmed by significant systematic errors from the experiment or model. Validation evidence suggests cross-beam energy transfer as a dominant source of the systematic error.
使用Omega直接驱动内爆实验评估xRAGE中激光源模型的模型置信度
洛斯阿拉莫斯国家实验室有兴趣为其多物理代码xRAGE开发高能量密度物理验证能力。xRAGE最近更新了激光封装Mazinsin,以提高可预测性。我们通过验证Omega激光设备的激光驱动、直接驱动球形胶囊实验来评估激光封装的当前实施和耦合。ASME V&V 20-2009标准用于确定xRAGE的模型置信度,并确定了高能量密度物理的考虑因素。在xRAGE目前的建模能力下,实验或模型的显著系统误差会使模型置信度不堪重负。验证证据表明,交叉光束能量转移是系统误差的主要来源。
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来源期刊
CiteScore
1.60
自引率
16.70%
发文量
12
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