Edge pedestal characteristics in JET and JT-60U tokamaks under variable toroidal field ripple
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Abstract |
The effects of toroidal field (TF) ripple on the edge pedestal characteristics were examined in the TF ripple scan experiments at the plasma current I(p) of 1.1 MA in JET and JT-60U. The TF ripple amplitude delta(R) was defined as a value averaged over the existing ripple wells at the separatrix on the outer midplane. By the installation of ferritic inserts (FIs), delta(R) was reduced from 1% to 0.6% at 3.2T (0.5% at 2.2T) in JT-60U. In JET, delta(R) was varied from 0.08% to 1% by feeding different currents to the odd and even set of coils out of 32 TF coils. The pedestal pressure p(ped) was similar for the cases before and after the installation of FIs in JT-60U. Similarly, no clear difference in p(ped) was also observed in the variation of delta(R) in JET. The core and edge toroidal rotation clearly shifted in the counter-direction by increased delta(R). However, there were no changes in the spatial profiles of electron density, electron temperature and ion temperature. By the installation of FIs in JT-60U, the ELM frequency f(ELM) decreased by similar to 20%, while the ELM energy loss increased by 50-150%. The increased ELM loss power by 30% suggests a reduction of inter-ELM transport with the reduced delta(R). In JET, f(ELM) increased only slightly with increased delta(R) while the edge toroidal rotation frequency decreased as delta(R) increased. From the inter-machine similarity experiment at 1.1 MA, TF ripple less than 1% does not strongly affect the pedestal pressure. However, in the single TF ripple scan at the higher I(p) of 2.6MA in JET, it clearly decreases with the increased delta(R), accompanying with a strong density pump out at large TF ripple. These results suggests that the effect of TF ripple on H-mode properties becomes stronger in the plasmas with higher I(p) or lower edge collisionality of ripple diffusion. |
Year of Publication |
2011
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Journal |
Nuclear Fusion
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Volume |
51
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Number |
11
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Issue |
11
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Number of Pages |
113004
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Date Published |
Nov
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Type of Article |
Article
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ISBN Number |
0029-5515
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DOI | |
PId |
adfc70f3bff63b8b620e4597a5ba1255
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Alternate Journal |
Nucl. Fusion
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Journal Article
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