Full conversion from Ohmic to runaway electron driven current via massive gas injection in the TCV tokamak

Full conversion from Ohmic to runaway electron driven current via massive gas injection in the TCV tokamak

Full conversion from Ohmic to runaway electron (RE) driven current was observed in the TCV tokamak following massive injection of neon through a disruption mitigation valve into a low-density limited circular plasma. Following a partial disruption, a stable 200 kA RE beam is maintained for more than...

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Veröffentlicht in:Nuclear fusion 2022-02
Hauptverfasser: Decker, Joan, Papp, Gergely, Coda, Stefano, Duval, Basil P, Sheikh, Umar Ahmed, Blanchard, Patrick, Choi, Dahye, Galperti, Cristian, Calacci, Luca, Carnevale, Daniele, Ficker, Ondřej, Gobbin, Marco, Labit, Benoit, Macusova, Eva, Mlynář, Jan, Plyusnin, Vladislav V, Sauter, Olivier
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Sprache:eng
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Zusammenfassung:Full conversion from Ohmic to runaway electron (RE) driven current was observed in the TCV tokamak following massive injection of neon through a disruption mitigation valve into a low-density limited circular plasma. Following a partial disruption, a stable 200 kA RE beam is maintained for more than one second. Controlled ramp-down of the RE beam with adjustable decay rate was demonstrated. Control of the beam vertical position was achieved down to a RE current of 20 kA. RE beam formation is observed in elongated plasma configurations up to κ=1.5. A reproducible scenario for RE beam generation without loss of circulating current is of particular interest for disruption modelling applications.
ISSN:0029-5515
1741-4326
DOI:10.1088/1741-4326/ac5369