利用学习基础从稀疏投影数据三维重建磁化衬垫惯性融合中的 X 射线发射体积

J. Fein, E. Harding, William E. Lewis, M. Weis, M. Schaeuble
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引用次数: 0

摘要

三维可视化聚变等离子体的 X 射线和中子发射的能力对于了解实验中等离子体复杂形状的起源至关重要。遗憾的是,由于可用的诊断视图数量较少,这在研究磁化衬垫惯性聚变(MagLIF)这一聚变概念的实验中仍然具有挑战性。在这里,我们提出了一种基函数展开方法,用于从一组稀疏的 X 射线发射图像中重建 MagLIF 的停滞等离子体。我们从包含准螺旋结构的训练体积中 "学习 "了一组自然基函数,这些准螺旋结构的投影与实验图像中观察到的投影在性质上非常相似。在几个已知体积上进行的测试表明,根据几个指标,学习到的基函数优于圆柱谐波基函数和附加正则化的简单体素基函数。使用所学基础进行的两视角重建对发射体积的估计在 11% 以内,而三视角重建对形态的恢复也非常准确。该技术应用于实验数据,首次从多个视角对 MagLIF 停滞柱进行了三维重建,提供了衬垫不稳定性印记到发射等离子体的更多迹象。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Three-dimensional reconstruction of x-ray emission volumes in magnetized liner inertial fusion from sparse projection data using a learned basis
The ability to visualize x-ray and neutron emission from fusion plasmas in 3D is critical to understand the origin of the complex shapes of the plasmas in experiments. Unfortunately, this remains challenging in experiments that study a fusion concept known as Magnetized Liner Inertial Fusion (MagLIF) due to a small number of available diagnostic views. Here, we present a basis function-expansion approach to reconstruct MagLIF stagnation plasmas from a sparse set of x-ray emission images. A set of natural basis functions is “learned” from training volumes containing quasi-helical structures whose projections are qualitatively similar to those observed in experimental images. Tests on several known volumes demonstrate that the learned basis outperforms both a cylindrical harmonic basis and a simple voxel basis with additional regularization, according to several metrics. Two-view reconstructions with the learned basis can estimate emission volumes to within 11% and those with three views recover morphology to a high degree of accuracy. The technique is applied to experimental data, producing the first 3D reconstruction of a MagLIF stagnation column from multiple views, providing additional indications of liner instabilities imprinting onto the emitting plasma.
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