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Edge localized modes control: experiment and theory

Research output: Contribution to journalArticle

Published copy (DOI)

Author(s)

  • M Becoulet
  • G Huysmans
  • P Thomas
  • E Joffrin
  • F Rimini
  • P Monier-Garbet
  • A Grosman
  • P Ghendrih
  • V Parail
  • P Lomas
  • G Matthews
  • M Gryaznevich
  • G Counsell
  • A Loarte
  • G Saibene
  • R Sartori
  • P Snyder
  • T Evans
  • P Gohil
  • R Moyer
  • Y Kamada
  • N Oyama
  • T Hatae
  • K Kamiya
  • A Degeling
  • Y Martin
  • J Lister
  • J Rapp
  • C Perez
  • P Lang
  • A Chankin
  • T Eich
  • A Sips
  • J Stober
  • L Horton
  • A Kallenbach
  • W Suttrop
  • S Saarelma
  • S Cowley
  • J Lonnroth
  • M Shimada
  • A Polevoi
  • G Federici

Department/unit(s)

Publication details

JournalJournal of Nuclear Materials
DatePublished - 1 Mar 2005
Issue number1-3
Volume337-39
Number of pages7
Pages (from-to)677-683
Original languageEnglish

Abstract

The paper reviews recent theoretical and experimental results focussing on the identification of the key factors controlling ELM energy and particle losses both in natural ELMs and in the presence of external controlling mechanisms. Present experiment and theory pointed out the benefit of the high plasma shaping, high q(95) and high pedestal density in reducing the ELM affected area and conductive energy losses in Type I ELMs. Small benign ELMs regimes in present machines (EDA, HRS, Type II, Grassy, QH, Type III in impurity seeded discharges at high delta) and their relevance for ITER are reviewed. Recent studies of active control of ELMs using stochastic boundaries, small pellets and edge current generation are presented. (c) 2004 Elsevier B.V. All rights reserved.

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