Plans for a new ECRH system at ASDEX Upgrade

Leuterer, F.; Kirov, K.; Monaco, F.; Münich, M.; Schütz, H.; Ryter, F.; Wagner, D.; Wilhelm, R.; Zohm, H.; Franke, T.; Voigt, K.; Thumm, M.; Heidinger, R.; Dammertz, G.; Koppenburg, K.; Gantenbein, G.; Hailer, H.; Kasparek, W.; Müller, G. A.; Bogdashov, A.; Denisov, G.; Kurbatov, V.; Kuftin, A.; Litvak, A.; Malygin, S.; Tai, E.; Zapevalov, V.

doi:10.1016/S0920-3796(03)00100-5

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Plans for a new ECRH system at ASDEX Upgrade

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Leuterer, F.
Technology (TE), Max Planck Institute for Plasma Physics, Max Planck Society;

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Kirov, K.
Tokamak: Edge and Divertor Physics (E2), Max Planck Institute for Plasma Physics, Max Planck Society;
Experimental Plasma Physics 2 (E2), Max Planck Institute for Plasma Physics, Max Planck Society;

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Monaco, F.
Experimental Plasma Physics 2 (E2), Max Planck Institute for Plasma Physics, Max Planck Society;

/persons/resource/persons110441

Schütz, H.
Experimental Plasma Physics 1 (E1), Max Planck Institute for Plasma Physics, Max Planck Society;

/persons/resource/persons110299

Ryter, F.
Tokamak Edge and Divertor Physics (E2), Max Planck Institute for Plasma Physics, Max Planck Society;

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Wagner, D.
Experimental Plasma Physics 2 (E2), Max Planck Institute for Plasma Physics, Max Planck Society;

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Wilhelm, R.
Technology (TE), Max Planck Institute for Plasma Physics, Max Planck Society;

/persons/resource/persons110907

Zohm, H.
Experimental Plasma Physics 2 (E2), Max Planck Institute for Plasma Physics, Max Planck Society;

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Franke, T.
Tokamak Scenario Development (E1), Max Planck Institute for Plasma Physics, Max Planck Society;

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Citation

Leuterer, F., Kirov, K., Monaco, F., Münich, M., Schütz, H., Ryter, F., et al. (2003). Plans for a new ECRH system at ASDEX Upgrade. Fusion Engineering and Design, 66-68, 537-542. doi:10.1016/S0920-3796(03)00100-5.

Cite as: https://hdl.handle.net/11858/00-001M-0000-0027-3102-E

Abstract

A new ECRH system is being constructed for ASDEX Upgrade with a total power of 4 MW, generated by four gyrotrons, and a pulse duration of 10 s. Particular features are the use of gyrotrons which can work at various frequencies in the range 104–140 GHz and correspondingly broad band transmission components. The transmission will be at normal air pressure, and at the torus we will have a tunable double disk vacuum window. A further aim is the installation of fast moveable mirrors for a feedback controlled localized power deposition.