欧姆加热导体表面等离子体形成和演化的建模

2006 IEEE International Conference on Megagauss Magnetic Field Generation and Related Topics Pub Date : 2006-11-01 DOI:10.1109/MEGAGUSS.2006.4530675

V. Makhin, M. Angelova, T. Awe, B. Bauer, S. Fuelling, I. Lindemuth, R. Siemon

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引用次数: 6

摘要

磁场的表面响应对最终的磁化靶聚变(MTF)实验具有重要意义。Garanin等人最近进行的平面几何辐射流体数值模拟显示了等离子体是如何通过金属表面的热过程产生的。内华达大学里诺分校(UNR)正在进行研究MG状态下典型衬里材料表面金属等离子体形成和稳定性的实验。还计划在Atlas和Shiva Star等更大的设施上进行更多的实验。我们在这里提出了我们的铝圆柱形导体表面响应的初始模型，假设实验相关的电流上升时间，这决定了电流蒙皮深度相对于导体半径的比率。重要的影响包括等离子体的形成，辐射传输，以及由磁场曲率驱动的不稳定的m=0模式，该模式将表面等离子体与金属保持在一起。还讨论了结果对各种状态方程和电阻率模型的敏感性。

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Modeling of Plasma Formation and Evolution on the Surface of Ohmically Heated Conductors

The surface response to MG fields is important for eventual Magnetized Target Fusion (MTF) experiments " . Recent radiation-hydro numerical simulations in a planar geometry by Garanin et al. show how plasma can be generated through thermal processes on a metal surface. Experiments to study metal plasma formation and stability on the surface of typical liner materials in the MG regime are underway at the University of Nevada at Reno (UNR). Additional experiments on larger facilities such as Atlas and Shiva Star are also planned. We present here our initial modeling of the surface response of aluminum cylindrical conductors, assuming experimentally relevant current rise-times, which determine the ratio of current skin depth relative to conductor radius. Important effects include plasma formation, radiation transport, and the unstable m=0 mode driven by curvature of the magnetic field that holds the surface plasma against the metal. The sensitivity of results to various equation-of-state and resistivity models is also discussed.

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2006 IEEE International Conference on Megagauss Magnetic Field Generation and Related Topics

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