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DIFFER Publication

Consequences of finite transport on the effectiveness of ECCD for neoclassical tearing mode stabilization in ITER

Author
Abstract

One of the main aims of the ITER electron cyclotron resonance heating (ECRH) system, in particular of the Upper Port Launcher, is the control of magnetohydrodynamics instabilities. This control typically requires non-inductively driven currents with a high degree of localization, i.e. with a very narrow profile. A numerical analysis of the effect of the radial diffusion of the EC driven current carrying electrons has been performed in order to estimate the effectiveness of electron cyclotron current drive (ECCD) for neoclassical tearing mode (NTM) stabilization. In particular, Fokker-Planck calculations including radial diffusion for the case of the ITER ECRH Upper Port Launcher are presented. These show a significant decrease in the local current density when radial diffusion at a rate of only 1 m(2) s(-1) is included and consequently a broadening of the profile with a drop in the predicted efficiency for NTM control. Furthermore, it is shown that a simple formula combining the effect of the radial diffusion and the width of the EC power deposition profile reproduces quite accurately the maximum EC driven current density, which is the more relevant number in determining the NTM suppression figure of merit, for typical ITER parameters.

Year of Publication
2009
Journal
Nuclear Fusion
Volume
49
Number
9
Number of Pages
10
Date Published
Sep
Type of Article
Article
ISBN Number
0029-5515
Accession Number
ISI:000268936900020
URL
<Go to ISI>://000268936900020
PId
8599bd878d33b24e8a36d23332c5ed12
Alternate Journal
Nucl. Fusion
Journal Article
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