Fluctuation BES measurements with the ITER core CXRS prototype spectrometer

TitleFluctuation BES measurements with the ITER core CXRS prototype spectrometer
Publication TypeJournal Article
Year of Publication2013
AuthorsG.I Pokol, S. Zoletnik, D. Dunai, O. Marchuk, T. Baross, G. Erdei, G. Grunda, I.G Kiss, A. Kovacsik, M. von Hellermann, O. Lischtschenko, W. Biel, R.JE Jaspers, M. Durkut
JournalFusion Engineering and Design
Pagination1386 - 1389
KeywordsBeam emission, CXRS, Fluctuation, ITER, MHD, TEXTOR, Validation

The ITER core CXRS diagnostic system collects the light emitted from the interaction of the diagnostic neutral beam with the core plasma and guides it via a mirror labyrinth through the upper port plug #3 towards a fiber bundle, which then transmits the light into a set of spectrometers for spectral analysis. In order to test the accessibility of the special parameter range required for the ITER measurement, a prototype spectrometer was built and operated successfully at the TEXTOR tokamak. In addition to the He/Be, C/Ne and H/D/T regular spectral channels, a fluctuation beam emission spectroscopy (BES) system has been integrated to measure core MHD activity, and validate corresponding ITER simulation results. The fluctuation system can be operated as an alternative to the spectral BES measurement, and has 8 spatial channels sampled at 2 MHz. In this paper, we present details of the fluctuation BES system and its interface to the ITER prototype spectrometer along with simulation and measurement results at TEXTOR. We show that the measurement fully confirms the simulation results on achievable photon current at the detector and on the signal to noise ratio.







Alternate TitleFusion Eng. Des.

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