@article{6973,
  author = {S. A. Bozhenkov and M. Lehnen and K.H. Finken and M. W. Jakubowski and R C Wolf and R. Jaspers and M. Kantor and O. V. Marchuk and E. Uzgel and G. van Wassenhove and O. Zimmermann and D. Reiter},
  title = {Generation and suppression of runaway electrons in disruption mitigation experiments in TEXTOR},
  abstract = {Runaway electrons represent a serious problem for the reliable operation of the future experimental tokamak ITER. Due to the multiplication factor of exp(50) in the avalanche even a few seed runaway electrons will result in a beam of high energetic electrons that is able to damage the machine. Thus suppression of runaway electrons is a task of great importance, for which we present here a systematic study of runaway electrons following massive gas injection in TEXTOR. Argon injection can cause the generation of runaways carrying up to 30% of the initial plasma current, while disruptions triggered by injection of helium or of mixtures of argon (5%, 10%, 20%) with deuterium are runaway free. Disruptions caused by argon injection finally become runaway free for very large numbers of injected atoms. The appearance/absence of runaway electrons is related to the fraction of atoms delivered to the plasma centre. This so-called mixing efficiency is deduced from a 0D model of the current quench. The estimated mixing efficiency is 3% for argon, 15% for an argon/deuterium mixture and about 40% for helium. A low mixing efficiency of high-Z impurities can have a strong implication for the design of the disruption mitigation system for ITER. However, a quantitative prediction requires a better understanding of the mixing mechanism.},
  year = {2008},
  journal = {Plasma Physics and Controlled Fusion},
  volume = {50},
  number = {10},
  pages = {18},
  month = {Oct},
  isbn = {0741-3335},
  url = {<Go to ISI>://000259254800009 },
  note = {ISI Document Delivery No.: 349BWTimes Cited: 0Cited Reference Count: 51},
  language = {English},
}