HL-3 托卡马克上的 X 射线成像晶体光谱仪 (XICS) 诊断装置

IF 1.9 3区 工程技术 Q1 NUCLEAR SCIENCE & TECHNOLOGY
X.L. Zhang , Z.Y.H. He , Z.F. Cheng , W. Yan , Y.B. Dong , Y. Liu , W. Deng , B.Z. Fu , Z.B. Shi , Y.P. Zhang , Y.J. Shi
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引用次数: 0

摘要

在 HL-3 托卡马克上建造的 X 射线成像晶体光谱仪(XICS)诊断系统在测量核心等离子体参数剖面(包括离子温度、电子温度、旋转速度和杂质辐射剖面)方面发挥着至关重要的作用。该诊断系统经过专门设计,可提供对了解托卡马克等离子体的行为和特性至关重要的详细而准确的数据。共振谱线(3.9494 Å 处 Ar XVII 的 w 线)及其类氦氩离子卫星是根据 HL-3 参数范围选择的。在 XICS 系统的可调位移平台上安装了一个球形弯曲石英晶体(1012),其晶格常数为 2d = 4.562 Å,曲率半径为 Rc = 3.0 m,尺寸为 10 cm(高)×5 cm(宽)。通过三维(垂直、倾斜、旋转)调整位置,可以有效地记录类氦氩离子的光谱。XICS 的磁轴环向切角为 49°。这种布局占环面旋转速度分量的 65.6%。XICS 系统在中面的极角为 11°,覆盖中面以上 10 厘米到以下 50 厘米的等离子体范围,相当于 HL-3 等离子体的 q = 1 表面(伸长率 κ >1.8)。这种 XICS 布局产生了一个具有极环形和环形旋转贡献的光谱,需要通过数据处理进行解耦。一般来说,由于极坐标旋转速度的贡献远小于环坐标旋转速度的贡献,因此可以忽略不计。在高性能 PILATUS3 × 900 K 探测器的基础上,XICS 系统的空间分辨率为 1.5 厘米,时间分辨率为 5-10 毫秒。光谱分辨率为 λ/Δλ∼4×104,满足实验测量要求。获得了 HL-3 托卡马克的离子和电子温度曲线的初步结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
X-ray imaging crystal spectrometer (XICS) diagnostic on the HL-3 tokamak
The construction of an X-ray imaging crystal spectrometer (XICS) diagnostic system on the HL-3 tokamak plays a crucial role in measuring core plasma parameter profiles, including ion temperature, electron temperature, rotational velocity, and impurity radiation profiles. This diagnostic system has been specifically designed to provide detailed and accurate data essential for understanding the behavior and characteristics of tokamak plasma. The resonance spectral line (w line of Ar XVII at 3.9494 Å) and its satellites of helium-like argon ions were chosen on the basis of the HL-3 parameter range. A spherically bent quartz crystal (1012) with a lattice constant of 2d = 4.562 Å, a curvature radius of Rc = 3.0 m, and a size of 10 cm (high) × 5 cm (wide) was mounted on an adjustable displacement platform in the XICS system. The position was adjusted in three dimensions (vertical, inclined, rotation) to effectively record the spectra of the helium-like argon ions. The XICS has a tangential angle of 49° for the toroidal direction in the magnetic axis. This layout accounts for 65.6 % of the toroidal rotation velocity component. The XICS system was set at an 11° poloidal angle in the mid-plane to cover a plasma range of 10 cm above to 50 cm below the mid-plane, which corresponds to the q = 1 surface of the HL-3 plasma (elongation κ > 1.8). This XICS layout produced a spectrum with poloidal and toroidal rotational contributions, requiring decoupling through data processing. In general, because the contribution of the poloidal rotation velocity is much smaller than that of the toroidal rotation velocity, it can be ignored. The XICS system offers a spatial resolution of ∼1.5 cm and a temporal resolution of 5–10 ms on the basis of a high-performance PILATUS3 × 900 K detector. The spectral resolution is λ/Δλ4×104, which satisfies the experimental measurement requirements. Preliminary results of ion and electron temperature profiles were obtained for the HL-3 tokamak.
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来源期刊
Fusion Engineering and Design
Fusion Engineering and Design 工程技术-核科学技术
CiteScore
3.50
自引率
23.50%
发文量
275
审稿时长
3.8 months
期刊介绍: The journal accepts papers about experiments (both plasma and technology), theory, models, methods, and designs in areas relating to technology, engineering, and applied science aspects of magnetic and inertial fusion energy. Specific areas of interest include: MFE and IFE design studies for experiments and reactors; fusion nuclear technologies and materials, including blankets and shields; analysis of reactor plasmas; plasma heating, fuelling, and vacuum systems; drivers, targets, and special technologies for IFE, controls and diagnostics; fuel cycle analysis and tritium reprocessing and handling; operations and remote maintenance of reactors; safety, decommissioning, and waste management; economic and environmental analysis of components and systems.
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