Beam emission spectroscopy diagnostic design and capabilities for two-dimensional turbulence measurements on Wendelstein 7-X

X. Han*, D. R. Smith, T. Windisch, R. Laube, D. Den Hartog, C. Seyfert, T. Gallenberger, K. Jaehnig, B. Geiger, G. McKee, O. Grulke

*Corresponding author for this work

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Abstract

A beam emission spectroscopy (BES) diagnostic is designed for studying two-dimensional turbulent dynamics by measuring the Doppler-shifted Balmer-Alpha emission (n = 3 → 2) from neutral heating beams on Wendelstein 7-X (W7-X) stellarator. The BES viewing geometry has been determined in the conceptual design previously. However, the small Doppler shifts and small optical throughput compared to a typical BES diagnostic demand dedicated efforts on the optical assemblies and the detector module for the BES system. We present the detailed opto-mechanical design and specifications of BES, including a customized neutral beam viewing optical system, a semi-telecentric optical assembly, and a detector module for electronic amplification. The point spread function is calculated using the pyFIDASIM code with experimental parameters and W7-X magnetic configurations to estimate the BES spatial resolution and beam intensity. The as-manufactured interference filter is applied for the spectral isolated beam radiance calculation. Result shows that the BES system is capable of measuring the ion-scale turbulence for k pi ≤ 0.4 at r/a = 0.75 with reasonable spatial and wavenumber resolutions. An integrated detector module is fabricated where two 8 × 4 avalanche photodiode detectors (APD) are embedded into the custom-designed pre-amplifier circuit to gain signals to the desired level. The detector noise measurement is performed and the signal-to-noise ratio (SNR) is evaluated. A detectable fluctuation level can be achieved as low as ñe/ne ≈ 0.5% at frequency f ≤ 400 kHz with a bandwidth of 1 MHz.

Original languageEnglish
Article numberP11004
JournalJournal of Instrumentation
Volume19
Issue number11
Number of pages15
ISSN1748-0221
DOIs
Publication statusPublished - 2024

Keywords

  • Detector design and construction technologies and materials
  • Nuclear instruments and methods for hot plasma diagnostics
  • Plasma diagnostics - interferometry, spectroscopy and imaging

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