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Physics of runaway electrons with Shattered Pellet Injection at JET

Reux C.; Eidietis N.; Lehnen M.; Hollmann E.M.; Jachmich S.; Joffrin E.; Lomas P.J.; Rimini F.; Baylor L.; Calacci L.; Causa F.; Carnevale D.; Coffey I.; Craven D.; Dal Molin A.; de la Luna E.; De Tommasi G.; Ficker O.; Garcia J.; Gebhart T.; Giacomelli L.; Huber A.; Khilkevich E.; Lowry C.; MacusovaE.; Manzanares A.; Nocente M.; Panontin E.; Papp G.; Pautasso G.; Paz-Soldan C.; Peacock A.; Plyusnin V.; Shevelev A.; Shiraki D.; Silburn S.; Sommariva C.; Sozzi C.; Sridhar S.; Sweeney R.; Tinguely R.A.; Wilson J.; JET contributors

Conference: 47th EPS Conference on Plasma Physics, , Stiges, Spain , 21 - 25 June 2021 Year: 2021
ISTP Authors:
Carlo Sozzi
Keywords: , ,
Research Activitie:

Runaway electrons (RE) are one of the consequences of tokamak plasma disruptions. They may form multi-MA beams of electrons up to several MeV. Avoidance or suppression of such beams is therefore required to ensure reliable operation of future tokamaks. Shattered Pellet Injection (SPI) is the disruption and runaway mitigation method planned for ITER.

ID 455573
PRODUCT TYPE Conference Abstract
LAST UPDATE 2022-11-18T11:56:31Z
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