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Fast lithium beam edge plasma spectroscopy at IPP garching - Status and recent developments

机译:IPP灌装的快速锂束边缘等离子体光谱-现状和最新发展

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Impurity ion concentration and impurity ion temperature in the plasma gradient region as well as the scrape-off layer are essential parameters for understanding the physics of L- and H-mode transport and the transport barrier itself To gain access to these properties, the well-established Li-beam diagnostic capabilities on both Psion devices at the Max-Planck-Institut fur Plasmaphysik (IPP) Garching WENDELSTEIN 7-AS stellarator and the Axially Symmetric Divertor Experiment (ASDEX) Upgrade tokamak have been extended to include the measurement of radial profiles of impurity ion densities and temperatures by means of charge-exchange spectroscopy. This paper describes the experimental setups on both devices and presents typical results of impurity ion investigations. Electron density measurements show excellent agreement with other diagnostics. In addition, several Lil spectral lines (2p --> 2s, 3d --> 2p, 4s --> 2p, and 4d --> 2p) have been measured to check the collisional-excitation Li-beam modeling, especially for collision processes involving higher Li(nl) states (n greater than or equal to 3). The underlying database has been augmented by extensive investigations of lithium excitation processes. Cross sections for Li(2s --> 2p) excitation by various impurity ions as well as proton impact Li(21 --> nl) excitation have been calculated and measured in detail.
机译:等离子体梯度区域以及刮掉层中的杂质离子浓度和杂质离子温度是理解 L 型和 H 型输运物理以及输运势垒本身的基本参数 为了获得这些特性,马克斯-普朗克等离子体物理研究所 (IPP) Garching 的两个 Psion 设备上都建立了完善的锂束诊断功能 [WENDELSTEIN 7-AS 星形仪和轴对称分流器实验(ASDEX)升级托卡马克]已扩展到包括通过电荷交换光谱测量杂质离子密度和温度的径向剖面。本文介绍了两种设备上的实验设置,并介绍了杂质离子研究的典型结果。电子密度测量结果与其他诊断方法非常吻合。此外,还测量了几条Lil谱线(2p --> 2s、3d --> 2p、4s --> 2p和4d --> 2p)以检查碰撞激发锂束建模,特别是对于涉及更高Li(nl)状态(n大于或等于3)的碰撞过程。通过对锂激发过程的广泛研究,基础数据库得到了扩充。详细计算和测量了各种杂质离子激发的Li(2s-->2p)截面以及质子撞击Li(21 --> nl)激发。

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