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For Scientists

ITPA Scrape Off Layer and Divertor Topical Group

Scope

The physics studied by the Scrape Off Layer (SOL) and Divertor Topical Group covers a wide range of issues. Starting at the first wall surface, issues include plasma-material interactions and their dependence on materials, and hydrogen isotope recycling and their storage in the first wall. A more engineering-like issue is the first wall geometry and material and how these affect operation. Moving into the divertor and SOL plasmas, the issues are related to transport (parallel and perpendicular to the magnetic field) of hydrogenic and impurity species. At the SOL/core interface this group shall address the relationship between core and edge confinement (e.g., H-modes and density limits) as well as the understanding of changes in core confinement on the edge and first wall (e.g., Edge Localized Modes) and the resultant heat loads.

Tasks

The Scrape Off Layer & Divertor Topical Group shall focus its tasks on the following topics:

  • Participate in developing and validating divertor physics (including detachment, impurity transport and pumping) of ITER on the basis of experimental, theoretical, and modelling results
  • Assist the ITER Organization in defining the goals and program for ITER operation, including diagnostic requirements
  • Develop a quantitative understanding of heat loads on all plasma-facing components for steady state and transients, e.g., Edge Localized Modes (ELMs) and disruptions
  • Understand the role of external actuators (e.g., radiofrequency heating and resonant magnetic perturbations) on the SOL and impurity sources as well  as the effect of the SOL on those actuators
  • Characterize and understand the multiple hydrogenic retention paths and their dependences on material and operating scenario, while also addressing the effects of mixing materials on material properties (e.g., erosion rates and thermal conductivity) as well as tritium removal techniques
  • Develop new diagnostics for a variety of processes such as dust, erosion, and hydrogenic retention
  • Develop methods of conditioning for pre-operation as well as during operation

Members

Australia
Corr Cormac
Thompson Matt
China
Cai Laizhong
Ding Hongbing
Ding Rui
Luo Guang-Nan
Wang Liang
Xu Min
EU
Fedorczak Nicolas
Hakola Antti
Harrison James
Jakubowski Marcin (Stell. Rep)
Schmid Klaus
Theiler Christian
Varoutis Stylianos
Wiesen Sven (Dep. Chair)
India

Bisai Nirmal Kumar

Kakati Mayur

Khirwadkar Samir

Sharma Devendra

Japan

Fukumoto Masakatsu

Masuzaki Suguru

Motojima Gen

Nakano Tomohide

Ohno Noriyasu

Sakamoto Mizuki

Ueda Yoshio

Korea
Bak Jun-Gyo
Choe Wonho
Chung Kyu-Sun
Hong Suk Ho
Lee Hyungho
Russia
Budaev Viacheslav
Gasparyan Yury
Martynenko Yury
Poznyak Igor
Rozhansky Vladimir
USA

Casali Livia

Leonard Tony

Mclean Adam

Patino Marlene

Rapp Juergen (Chair)

Schmitz Oliver

Umansky Maxim

ITER
Wauters Tom (ITER Dep. Chair)