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Heat and particle flux detachment with stable plasma conditions in the Wendelstein 7-X stellarator fusion experiment

by Schmitz, Oliver , Hammond, Ken , Reimold, Felix , Pablant, Novimir , Krychowiak, Maciej , Drewelow, Peter , Effenberg, Florian , Bozhenkov, Sergey , Langenberg, Andreas , Fuchert, Golo , Zhang, Daihong , Rahbarnia, Kian , Kai Jakob Brunner , Dinklage, Andreas , Pedersen, Thomas Sunn , Pavone, Andrea , Otte, Matthias , Marsen, Stefan , Rudichshauser, Lukas , König, Ralf , Wenzel, Uwe , Wurden, Glen , Niemann, Holger , W7-X team , Gao, Yu , Stange, Torsten , Schlisio, Georg , Carralero, Daniel , Laqua, Heinrich , Jakubowski, Marcin , Knauer, Jens , Feng, Yuhe , Brezinsek, Sebastijan

in Feedback control / Heat flux / Heat transfer / Plasma

2020

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Heat and particle flux detachment with stable plasma conditions in the Wendelstein 7-X stellarator fusion experiment

in Feedback control / Heat flux / Heat transfer / Plasma

2020

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Heat and particle flux detachment with stable plasma conditions in the Wendelstein 7-X stellarator fusion experiment

in Feedback control / Heat flux / Heat transfer / Plasma

2020

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Paper

Heat and particle flux detachment with stable plasma conditions in the Wendelstein 7-X stellarator fusion experiment

Schmitz, Oliver,

Hammond, Ken,

Reimold, Felix,

Pablant, Novimir,

Krychowiak, Maciej,

Drewelow, Peter,

Effenberg, Florian,

Bozhenkov, Sergey,

Langenberg, Andreas,

Fuchert, Golo,

Zhang, Daihong,

Rahbarnia, Kian,

Kai Jakob Brunner,

Dinklage, Andreas,

Pedersen, Thomas Sunn,

Pavone, Andrea,

Otte, Matthias,

Marsen, Stefan,

Rudichshauser, Lukas,

König, Ralf,

Wenzel, Uwe,

Wurden, Glen,

Niemann, Holger,

W7-X team,

Gao, Yu,

Stange, Torsten,

Schlisio, Georg,

Carralero, Daniel,

Laqua, Heinrich,

Jakubowski, Marcin,

Knauer, Jens,

Feng, Yuhe,

Brezinsek, Sebastijan

2020

Overview

Reduction of particle and heat fluxes to plasma facing components is critical to achieve stable conditions for both the plasma and the plasma material interface in magnetic confinement fusion experiments. A stable and reproducible plasma state in which the heat flux is almost completely removed from the material surfaces was discovered recently in the Wendelstein 7-X stellarator experiment. At the same time also particle fluxes are reduced such that material erosion can be mitigated. Sufficient neutral pressure was reached to maintain stable particle exhaust for density control in this plasma state. This regime could be maintained for up to 28 seconds with a minimum feedback control.

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Publisher

Cornell University Library, arXiv.org

Subject

Feedback control

/ Heat flux

/ Heat transfer

/ Plasma