Diagnostic alkali atom (e.g., lithium) beams are routinely used to diagnose magnetically confined plasmas, namely, to measure the plasma electron density profile in the edge and the scrape off layer region. A light splitting optics system was installed into the observation system of the lithium beam emission spectroscopy diagnostic at the Joint European Torus (JET) tokamak, which allows simultaneous measurement of the beam light emission with a spectrometer and a fast avalanche photodiode (APD) camera. The spectrometer measurement allows density profile reconstruction with ∼10 ms time resolution, absolute position calculation from the Doppler shift, spectral background subtraction as well as relative intensity calibration of the channels for each discharge. The APD system is capable of measuring light intensities on the microsecond time scale. However ∼100 μs integration is needed to have an acceptable signal to noise ratio due to moderate light levels. Fast modulation of the beam up to 30 kHz is implemented which allows background subtraction on the 100 μs time scale. The measurement covers the 0.9 < ρpol < 1.1 range with 6-10 mm optical resolution at the measurement location which translates to 3-5 mm radial resolution at the midplane due to flux expansion. An automated routine has been developed which performs the background subtraction, the relative calibration, and the comprehensive error calculation, runs a Bayesian density reconstruction code, and loads results to the JET database. The paper demonstrates the capability of the APD system by analyzing fast phenomena like pellet injection and edge localized modes.
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April 2018
Research Article|
April 20 2018
Sub-millisecond electron density profile measurement at the JET tokamak with the fast lithium beam emission spectroscopy system
D. I. Réfy
;
D. I. Réfy
1
Wigner Research Centre for Physics
, XII Konkoly Thege Miklós út 29-33, Budapest 1121, Hungary
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M. Brix;
M. Brix
2
CCFE, Culham Science Centre
, Abingdon, Oxon OX14 3DB, United Kingdom
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R. Gomes;
R. Gomes
3
Instituto de Plasmas e Fusão Nuclear, Instituto Superior Técnico, Universidade de Lisboa
, 1049-001 Lisboa, Portugal
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B. Tál;
B. Tál
1
Wigner Research Centre for Physics
, XII Konkoly Thege Miklós út 29-33, Budapest 1121, Hungary
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S. Zoletnik
;
S. Zoletnik
1
Wigner Research Centre for Physics
, XII Konkoly Thege Miklós út 29-33, Budapest 1121, Hungary
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D. Dunai;
D. Dunai
1
Wigner Research Centre for Physics
, XII Konkoly Thege Miklós út 29-33, Budapest 1121, Hungary
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G. Kocsis;
G. Kocsis
1
Wigner Research Centre for Physics
, XII Konkoly Thege Miklós út 29-33, Budapest 1121, Hungary
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S. Kálvin;
S. Kálvin
1
Wigner Research Centre for Physics
, XII Konkoly Thege Miklós út 29-33, Budapest 1121, Hungary
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T. Szabolics;
T. Szabolics
1
Wigner Research Centre for Physics
, XII Konkoly Thege Miklós út 29-33, Budapest 1121, Hungary
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a)
See the author list of “Overview of the JET results in support to ITER,” by X. Litaudon et al., to be published in Nuclear Fusion Special issue: Overview and summary reports from the 26th Fusion Energy Conference (Kyoto, Japan, 17–22 October 2016).
Rev. Sci. Instrum. 89, 043509 (2018)
Article history
Received:
June 06 2017
Accepted:
March 23 2018
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Citation
D. I. Réfy, M. Brix, R. Gomes, B. Tál, S. Zoletnik, D. Dunai, G. Kocsis, S. Kálvin, T. Szabolics, JET Contributors; Sub-millisecond electron density profile measurement at the JET tokamak with the fast lithium beam emission spectroscopy system. Rev. Sci. Instrum. 1 April 2018; 89 (4): 043509. https://doi.org/10.1063/1.4986621
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