Development of Fast Charge Exchange Recombination Spectroscopy by Using Interference Filter Method in JT-60U

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  • KOBAYASHI Shinji
    Institute of Advanced Energy, Kyoto Univ.
  • SAKASAI Akira
    Naka Fusion Research Establishment, Japan Atomic Energy Research Institute
  • KOIDE Yoshihiko
    Naka Fusion Research Establishment, Japan Atomic Energy Research Institute
  • SAKAMOTO Yoshiteru
    Naka Fusion Research Establishment, Japan Atomic Energy Research Institute
  • KAMADA Yutaka
    Naka Fusion Research Establishment, Japan Atomic Energy Research Institute
  • HATAE Takaki
    Naka Fusion Research Establishment, Japan Atomic Energy Research Institute
  • OYAMA Naoyuki
    Naka Fusion Research Establishment, Japan Atomic Energy Research Institute
  • MIURA Yukitoshi
    Naka Fusion Research Establishment, Japan Atomic Energy Research Institute

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Abstract

Recent developments and results of fast charge exchange recombination spectroscopy (CXRS) using interference filter method are reported. In order to measure the rapid change of the ion temperature and rotation velocity under collapse or transition phenomena with high-time resolution, two types of interference filter systems were applied to the CXRS diagnostics on the JT-60U Tokamak. One can determine the Doppler broadening and Doppler shift of the CXR emission using three interference filters having slightly different center wavelengths. A rapid estimation method of the temperature and rotation velocity without non-linear least square fitting is presented. The modification of the three-filters system enables us to improve the minimum time resolution up to 0.8 ms, which is better than that of 16.7 ms for the conventional CXRS system using the CCD detector in JT-60U. The other system having seven wavelength channels is newly fabricated to crosscheck the results obtained by the three-filters assembly, that is, to verify that the CXR emission forms a Gaussian profile under collapse phenomena. In a H-mode discharge having giant edge localized modes, the results obtained by the two systems are compared. The applicability of the three-filters system to the measurement of rapid changes in temperature and rotation velocity is demonstrated.

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