Decoupling beam power and beam energy on ASDEX Upgrade NBI with an in-situ variable extraction gap system

Nuclear Fusion Pub Date : 2024-07-16 DOI:10.1088/1741-4326/ad63b9

Christian Hopf, N. den Harder, B. Heinemann, C. Angioni, U. Plank, M. Weiland

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Abstract

In early 2022 one source of ASDEX Upgrade's (AUG) neutral beam injector 2 was equipped with a first-of-its-kind beam extraction grid system with in-situ variable extraction/acceleration gap that allows one to choose beam energy and beam power independently in a wide operational space, greatly enhancing experimental flexibility. The gap can be changed from one AUG discharge to the next. The extended operational space makes it possible to reduce beam energy and shine through while maintaining high heating power, or to reduce NBI power at high beam energy, e.g. to stay in L mode. Furthermore, the feature opens the door for advanced control of heat and torque deposition, such as to change torque and ion-to-electron heating ratio at constant power. The prototype system was successfully tested in 2022 and already found first applications in AUG's physics programme. The remaining three sources of the same injector will also be equipped with variable gaps during the 2022-24 opening of AUG and installation of this new system on all sources of NBI 1 is also under discussion in order to exploit the full potential of the new feature.

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在 ASDEX 升级版 NBI 上使用原位可变提取间隙系统实现光束功率和光束能量的解耦

2022 年初，ASDEX 升级版（AUG）中性束注入器 2 的一个光源配备了首创的光束提取网格系统，该系统具有原位可变提取/加速间隙，可在宽广的操作空间内独立选择光束能量和光束功率，大大提高了实验的灵活性。间隙可以从一次 AUG 放电改变到下一次。扩展的操作空间使得在保持高加热功率的同时降低光束能量和穿透力，或在高光束能量下降低 NBI 功率（如保持 L 模式）成为可能。此外，该功能还为热量和扭矩沉积的高级控制打开了大门，例如在恒定功率下改变扭矩和离子-电子加热比。原型系统已于 2022 年成功通过测试，并在 AUG 的物理项目中首次得到应用。在 2022-24 年 AUG 启用期间，同一喷射器的其余三个源也将配备可变间隙，并且正在讨论在 NBI 1 的所有源上安装这一新系统，以充分挖掘新功能的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Nuclear Fusion

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