Heavy-ion beam probe diagnostics for the STOR-M tokamak: numerical simulations and design features

Plasma Devices and Operations Pub Date : 2008-05-19 DOI:10.1080/10519990802062609
N. Dreval’, C. Xiao, D. Trembach, A. Hirose
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Abstract

Design optimization of the heavy-ion beam probe (HIBP) diagnostics for the STOR-M tokamak is described. The optimal geometry of the HIBP diagnostics has been determined by numerical simulations. In this geometry a significant part of the upper half of the poloidal cross-section is covered by the detector grid. A disadvantage of the HIBP in STOR-M is the decay of the toroidal magnetic field during a discharge. A novel energy-sweeping technique is proposed to compensate for drooping. This technique allows for complete radial profile measurements along a constant-angle detector line. Adjustments to the HIBP accelerator and energy analyser are considered. The required minimum set of HIBP hardware for STOR-M is discussed.
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storm托卡马克重离子束探针诊断:数值模拟和设计特点
介绍了storm托卡马克重离子束探针(HIBP)诊断系统的优化设计。通过数值模拟确定了HIBP诊断的最佳几何形状。在这种几何结构中,极向截面上半部分的重要部分被探测器栅格覆盖。在storm中,HIBP的一个缺点是在放电过程中环形磁场的衰减。提出了一种新的能量扫描技术来补偿下垂。该技术允许沿恒定角度探测器线进行完整的径向轮廓测量。考虑了对HIBP加速器和能量分析仪的调整。讨论了STOR-M所需的最低HIBP硬件集。
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Plasma Devices and Operations
Plasma Devices and Operations 物理-核科学技术
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