Nuclear Fusion (Jan 2024)

Decoupling beam power and beam energy on ASDEX Upgrade NBI with an in-situ variable extraction gap system

  • C. Hopf,
  • N. den Harder,
  • B. Heinemann,
  • C. Angioni,
  • U. Plank,
  • M. Weiland,
  • the ASDEX Upgrade Team

DOI
https://doi.org/10.1088/1741-4326/ad63b9
Journal volume & issue
Vol. 64, no. 9
p. 096017

Abstract

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In early 2022 one source of ASDEX Upgrade’s (AUG) neutral beam injector 2 was equipped with a first-of-its-kind beam extraction grid system with in-situ variable extraction/acceleration gap that allows one to choose beam energy and beam power independently in a wide operational space, greatly enhancing experimental flexibility. The gap can be changed from one AUG discharge to the next. The extended operational space makes it possible to reduce beam energy and shine through while maintaining high heating power, or to reduce NBI power at high beam energy, e.g. to stay in L mode. Furthermore, the feature opens the door for advanced control of heat and torque deposition, such as to change torque and ion-to-electron heating ratio at constant power. The prototype system was successfully tested in 2022 and already found first applications in AUG’s physics programme. The remaining three sources of the same injector will also be equipped with variable gaps during the 2022–24 opening of AUG and installation of this new system on all sources of NBI 1 is also under discussion in order to exploit the full potential of the new feature.

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