|Title||Power distribution in the snowflake divertor in TCV|
|Publication Type||Journal Article|
|Year of Publication||2013|
|Authors||H. Reimerdes, G.P. Canal, B.P Duval, B. Labit, T. Lunt, W.AJ Vijvers, S. Coda, G. De Temmerman, T.W Morgan, F. Nespoli, B. Tal, TCV team|
|Journal||Plasma Physics and Controlled Fusion|
TCV experiments demonstrate the basic power exhaust properties of the snowflake (SF) plus and SF minus divertor configurations by measuring the heat fluxes at each of their four divertor legs. The measurements indicate an enhanced transport into the private flux region and a reduction of peak heat fluxes compared to a similar single null configuration. There are indications that this enhanced transport cannot be explained by the modified field line geometry alone and likely requires an additional or enhanced cross-field transport channel. The measurements, however, do not show a broadening of the scrape-off layer (SOL) and, hence, no increased cross-field transport in the common flux region. The observations are consistent with the spatial limitation of several characteristic SF properties, such as a low poloidal magnetic field in the divertor region and a long connection length to the inner part of the SOL closest to the separatrix. Although this limitation is typical in a medium sized tokamak like TCV, it does not apply to significantly larger devices where the SF properties are enhanced across the entire expected extent of the SOL.
|Alternate Title||Plasma Phys. Control. Fusion|
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