Upgraded space and time resolved visible spectroscopic diagnostic on ADITYA-U tokamak.

IF 1.3 4区 工程技术 Q3 INSTRUMENTS & INSTRUMENTATION
Dipexa Modi, M B Chowdhuri, N Yadava, A Kumar, N Ramaiya, A Gauttam, U Rajvanshi, M Rathor, S Patel, R R Sheeba, K B K Mayya, S K Pathak, J Ghosh
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引用次数: 0

Abstract

Poloidal asymmetries in neutral and impurity ion temperatures and particle and impurity transports have been observed in many tokamaks. To investigate these asymmetries, space-resolved visible spectroscopic diagnostic of the ADTIYA-U tokamak has been upgraded to measure the spatial profile of Hα and impurities spectral line profile, ion temperature, and plasma rotation from both low and high field sides of the plasma, simultaneously with a better spatial resolution. This has been done by developing a linear array of 15 optical fibers as compared to the present linear array of nine fibers having a core diameter of 400 μm and coupling it to the entrance slit of a 1 m long high-resolution spectrometer of the existing diagnostic. A sCMOS detector with a larger height has also been employed to record 15 tracks as compared to the nine tracks when the spectrometer was coupled to a CCD detector having a size of 26.6 × 6.6 mm. The spatial profile of the Hα spectral line from the low and high field sides of the ADITYA-U plasma has been now recorded at every 20 ms to investigate neutral particle dynamics.

在许多托卡马克中都观测到了中性和杂质离子温度以及粒子和杂质传输的极不对称现象。为了研究这些不对称现象,对 ADTIYA-U 托卡马克的空间分辨可见光谱诊断进行了升级,以便以更高的空间分辨率从等离子体的低场和高场两侧同时测量 Hα 和杂质光谱线的空间分布、离子温度和等离子体旋转。与目前由 9 根光纤组成的线性阵列相比,该阵列的核心直径为 400 μm,通过开发一个由 15 根光纤组成的线性阵列,并将其与现有诊断仪的 1 米长高分辨率光谱仪的入口狭缝耦合,从而实现了这一目标。此外,还采用了高度更大的 sCMOS 探测器,记录了 15 条轨迹,而光谱仪与尺寸为 26.6 × 6.6 毫米的 CCD 探测器耦合时则记录了 9 条轨迹。现在,ADITYA-U 等离子体低场侧和高场侧的 Hα 光谱线的空间剖面每 20 毫秒记录一次,以研究中性粒子的动态。
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来源期刊
Review of Scientific Instruments
Review of Scientific Instruments 工程技术-物理:应用
CiteScore
3.00
自引率
12.50%
发文量
758
审稿时长
2.6 months
期刊介绍: Review of Scientific Instruments, is committed to the publication of advances in scientific instruments, apparatuses, and techniques. RSI seeks to meet the needs of engineers and scientists in physics, chemistry, and the life sciences.
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