Evaluating neoclassical tearing mode detection with ECE for control on ITER

TitleEvaluating neoclassical tearing mode detection with ECE for control on ITER
Publication TypeJournal Article
Year of Publication2013
AuthorsH. van den Brand, MR de Baar, N.JL Cardozo, E. Westerhof
JournalNuclear Fusion
Volume53
Issue1
Number1
Pagination013005
Date PublishedJan
ISBN Number0029-5515
Abstract

Neoclassical tearing mode (NTM) control on ITER requires detection of the mode location to be accurate and with low latency. This paper presents a systematic way to evaluate mode detection algorithms for ITER using numerical simulations of electron cyclotron emission (ECE), taking into account the radial asymmetry in the temperature perturbation by a rotating magnetic island. Simulated ECE is detected using a synthetic radiometer, in the ITER equatorial port plug, and processed by two detection algorithms for the 2/1 and 3/2 NTMs for a burning H-mode ITER plasma. One of the algorithms also incorporates simulated Mirnov data. The video bandwidth is set at 2 kHz. This allows for intermediate frequency bandwidths of B-IF = 400 MHz and BIF = 300 MHz for the two algorithms, respectively. The intermediate frequency bandwidth provides a trade-off between radial accuracy ( low bandwidth) and low noise/latency ( large bandwidth). 2/1 and 3/2 NTMs, seeded with widths up to 9 and 11 cm, are detectable with the required accuracy within 250 ms. With appropriate settings for the radiometer, the NTM detection using ECE is accurate and with low latency. The algorithm that incorporates both ECE and Mirnov data showed the lowest detection latencies.

DOI10.1088/0029-5515/53/1/013005
Division

FP

Department

TP

PID

9db26de8fe132dd8dc5f0e7ec84b7e02

Alternate TitleNucl. Fusion
LabelOA
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