Add to ORKGThree important physics issues for the ITER divertor design and operation are summarized based on the experimental and numerical work from multi-machine database (JET, JT-60U, ASDEX Upgrade, DIII-D, Alcator C-Mod and TEXTOR). (i) The energy load associated with Type-I ELMs is of great concern for the lifetime of the ITER divertor target. In order to understand the physics base of the scaling models[1], the ELM heat and particle transport from the edge pedestal to the divertor is investigated. Convective transport during ELMs plays an important role in heat transport to the divertor. (ii) Determination of the SOL flow pattern and the driving mechanism has progressed experimentally and numerically. Influences of the drift effects on the SOL...
Analysis of Type I ELMs from ongoing experiments shows that ELM energy losses are correlated with th...
Analysis of Type I ELMs from ongoing experiments shows that ELM energy losses are correlated with th...
Some of the remaining crucial plasma edge physics and plasma–material interaction issues of the ITER...
Three important physics issues for the ITER divertor design and operation are summarized based on th...
Three important physics issues for the ITER divertor design and operation are summarized based on th...
Abstract: The work of the ITPA SOL/divertor group is reviewed and implications for ITER discussed. S...
Edge-Localized-Modes (ELMs) are expected to present a significant transient flux of energy and parti...
Edge-Localized-Modes (ELMs) are expected to present a significant transient flux of energy and parti...
The authors analyzed sputtering erosion and tritium codeposition for the ITER vertical target divert...
In recent years the JET scientific programme has focussed on addressing physics issues essential for...
To ensure sufficient divertor target lifetime, the loss in plasma stored energy due to ELMs in ITER ...
Recent progress in the study of divertor and scrape-off layer plasma (SOL) phenomena in JET is revie...
The transient heat load on divertor surfaces from Edge-Localized Modes (ELMs) in tokamaks can be ver...
As a result of the ITER design review activities the specifications for power and particle fluxes on...
Progress, since the ITER Physics Basis publication (ITER Physics Basis Editors et al 1999 Nucl. Fusi...
Analysis of Type I ELMs from ongoing experiments shows that ELM energy losses are correlated with th...
Analysis of Type I ELMs from ongoing experiments shows that ELM energy losses are correlated with th...
Some of the remaining crucial plasma edge physics and plasma–material interaction issues of the ITER...
Three important physics issues for the ITER divertor design and operation are summarized based on th...
Three important physics issues for the ITER divertor design and operation are summarized based on th...
Abstract: The work of the ITPA SOL/divertor group is reviewed and implications for ITER discussed. S...
Edge-Localized-Modes (ELMs) are expected to present a significant transient flux of energy and parti...
Edge-Localized-Modes (ELMs) are expected to present a significant transient flux of energy and parti...
The authors analyzed sputtering erosion and tritium codeposition for the ITER vertical target divert...
In recent years the JET scientific programme has focussed on addressing physics issues essential for...
To ensure sufficient divertor target lifetime, the loss in plasma stored energy due to ELMs in ITER ...
Recent progress in the study of divertor and scrape-off layer plasma (SOL) phenomena in JET is revie...
The transient heat load on divertor surfaces from Edge-Localized Modes (ELMs) in tokamaks can be ver...
As a result of the ITER design review activities the specifications for power and particle fluxes on...
Progress, since the ITER Physics Basis publication (ITER Physics Basis Editors et al 1999 Nucl. Fusi...
Analysis of Type I ELMs from ongoing experiments shows that ELM energy losses are correlated with th...
Analysis of Type I ELMs from ongoing experiments shows that ELM energy losses are correlated with th...
Some of the remaining crucial plasma edge physics and plasma–material interaction issues of the ITER...