Scaling of the tokamak near the scrape-off layer H-mode power width and implications for ITER

Eich, T.; Leonard, A.W.; Pitts, R.A.; Fundamenski, W.; Goldston, R.J.; Gray, Travis; Herrmann, A.; Kirk, A.; Kallenbach, A.; Kardaun, O.; Kukushkin, A.S.; LaBombard, B.; Maingi, R.; Makowski, M. A.; Scarabosio, A.; Sieglin, B.; Terry, J. L.; Thornton, A.; Team, ASDEX Upgrade; Contributors, JET EFDA

doi:10.1088/0029-5515/53/9/093031

articleNuclear FusionAug 29, 2013Closed access

Scaling of the tokamak near the scrape-off layer H-mode power width and implications for ITER

TET. Eich ALA.W. Leonard RPR.A. Pitts WFW. Fundamenski RGR.J. Goldston

Max Planck Institute for Plasma Physics · General Atomics (United States) · +8 more institutions

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Abstract

A multi-machine database for the H-mode scrape-off layer power fall-off length, λq in JET, DIII-D, ASDEX Upgrade, C-Mod, NSTX and MAST has been assembled under the auspices of the International Tokamak Physics Activity. Regression inside the database finds that the most important scaling parameter is the poloidal magnetic field (or equivalently the plasma current), with λq decreasing linearly with increasing Bpol. For the conventional aspect ratio tokamaks, the regression finds , yielding λq,ITER ≅ 1 mm for the baseline inductive H-mode burning plasma scenario at Ip = 15 MA. The experimental divertor target heat flux profile data, from which λq is derived, also yield a divertor power spreading factor (S)…

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Keywords

Divertor
Tokamak
ASDEX Upgrade
Scaling
Physics
Plasma
Computational physics
Nuclear physics

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