The role of plasma-molecule interactions on power and particle balance during detachment on the TCV tokamak

K. Verhaegh*, B. Lipschultz, J.R. Harrison, B.P. Duval, A. Fil, M. Wensing, C. Bowman, D.S. Gahle, A. Kukushkin, D. Moulton, A. Perek, A. Pshenov, F. Federici, O. Février, O. Myatra, A. Smolders, C. Theiler, the TCV Team, the EUROfusion MST1 Team

*Corresponding author for this work

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Abstract

This paper shows experimental results from the TCV tokamak that indicate plasma-molecule interactions involving D2+ and possibly D- play an important role as sinks of energy (through hydrogenic radiation as well as dissociation) and particles (ions) during divertor detachment if low target temperatures (<3 eV) are achieved. Both molecular activated recombination (MAR) and ion source reduction due to a power limitation effect are shown to be important in reducing the ion target flux during a density ramp. In contrast, the electron-ion recombination (EIR) ion sink is too small to play an important role in reducing the ion target flux. MAR or EIR do not occur during N2 seeding induced detachment as the target temperatures are not sufficiently low. The impact of D2+ is shown to be underestimated in present (vibrationally unresolved) SOLPS-ITER simulations, which could result from an underestimated D2 + D+ → D2+ rate. The converged SOLPS-ITER simulations are post-processed with alternative reaction rates, resulting in considerable contributions of D2+ to particle and power losses as well as dissociation below the D2 dissociation area. Those findings are in quantitative agreement with the experimental results.

Original languageEnglish
Article number106014
Number of pages21
JournalNuclear Fusion
Volume61
Issue number10
Early online date8 Sept 2021
DOIs
Publication statusPublished - 31 Oct 2021

Keywords

  • molecular reaction rates
  • tokamak divertor
  • SOLPS-ITER
  • plasma spectroscopy
  • detachment
  • power/particle balances
  • plasma-molecule interactions

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