CW Experiments With the EU 1-MW, 170-GHz Industrial Prototype Gyrotron for ITER at KIT

CW Experiments With the EU 1-MW, 170-GHz Industrial Prototype Gyrotron for ITER at KIT

The European 1-MW, 170-GHz continuous wave industrial prototype gyrotron for electron cyclotron resonance heating and current drive on international thermonuclear experimental reactor was during 2016 under test at the Karlsruhe Institute of Technology (KIT) test facility. In order to optimize the gy...

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Veröffentlicht in:IEEE transactions on electron devices 2017-09, Vol.64 (9), p.3885-3892
Hauptverfasser: Ioannidis, Zisis C., Rzesnicki, Tomasz, Albajar, F., Alberti, S., Avramidis, Konstantinos A., Bin, William, Bonicelli, T., Bruschi, Alessandro, Chelis, Ioannis, Frigot, P.-E, Gantenbein, Gerd, Hermann, V., Hogge, J.-P, Illy, Stefan, Jianbo Jin, Jelonnek, John, Kasparek, W., Latsas, G., Lechte, C., Legrand, F., Kobarg, Thorsten, Pagonakis, Ioannis Gr, Rozier, Y., Schlatter, C., Schmid, Martin, Tigelis, Ioannis G., Thumm, Manfred, Tran, M. Q., Zein, Andy, Zisis, A.
Format: Artikel
Sprache:eng
Schlagworte:
Acceleration
Continuous radiation
Cyclotron resonance
Electron cyclotron resonance
Electron cyclotron resonance heating and current drive (ECRH&CD)
Electron tubes
gyrotron
Gyrotrons
international thermonuclear experimental reactor (ITER)
Particle beams
Prototypes
Radio frequency
Test facilities
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Beschreibung
Zusammenfassung:The European 1-MW, 170-GHz continuous wave industrial prototype gyrotron for electron cyclotron resonance heating and current drive on international thermonuclear experimental reactor was during 2016 under test at the Karlsruhe Institute of Technology (KIT) test facility. In order to optimize the gyrotron operation, the tube was at first thoroughly tested in the short-pulse regime, with pulses that did not exceed 10 ms, for a wide range of operational parameters. Then, and after proper conditioning of the tube, the operation was extended to longer pulses with duration up to 180 s, which is the maximum pulselength possible at the KIT test facility. In this paper, we present in detail the achievements of the long-pulse experimental campaign.
ISSN:0018-9383
1557-9646
DOI:10.1109/TED.2017.2730242