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Scaling of Spontaneous Rotation with Temperature and Plasma Current in Tokamaks

Author
Abstract

Using theoretical arguments, a simple scaling law for the size of the intrinsic rotation observed in tokamaks in the absence of a momentum injection is found: The velocity generated in the core of a tokamak must be proportional to the ion temperature difference in the core divided by the plasma current, independent of the size of the device. The constant of proportionality is of the order of 10 km . s(-1) . MA . keV(-1). When the intrinsic rotation profile is hollow, i.e., it is countercurrent in the core of the tokamak and cocurrent in the edge, the scaling law presented in this Letter fits the data remarkably well for several tokamaks of vastly different size and heated by different mechanisms.

Year of Publication
2012
Journal
Physical Review Letters
Volume
108
Issue
9
Number of Pages
095001
Date Published
Feb
Type of Article
Article
ISBN Number
0031-9007
URL
http://arxiv.org/abs/1108.6106
DOI
10.1103/PhysRevLett.108.095001
PId
0d39c3c43a78abfdbe55c46e523a5c18
Alternate Journal
Phys. Rev. Lett.
Journal Article
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