Add to ORKGITER cannot tolerate large relaxation events at the edge (“Type-I ELMs”). Type-I ELMs must be constantly suppressed/mitigated using externally applied magnetic perturbations. Therefore, non-axisymmetric (3-D) magnetic field will be part of the daily life at ITER. We need to be able to predict the effect of these weak externally magnetic perturbations on the confinement of energetic particles (EP). ITER Research Plan (IRP) activity B.11.11. promotes the development of corresponding stability analysis tools and their validation with specially designed experiments. The speaker (A.B.) has been appointed as responsible person for this activity and the purpose of this presentation is to introduce it to the Japanese fusion research community, ask...
Experiments have been carried out at the EAST tokamak to study ITER-relevant scenario integration is...
Recent study suggests that KSTAR could be a benefactor of the extremely low level of intrinsic error...
Resonant Magnetic Perturbations are a method to control the plasma edge. It was shown [Evans ’06] th...
Recent experiments on the ASDEX Upgrade tokamak aim at improving the physics base for ITER and DEMO ...
All current estimations of the energy released by type I edge-localized modes (ELMs) indicate that, ...
Recent experiments on the ASDEX Upgrade tokamak aim at improving the physics base for ITER and DEMO ...
ITER is the international reference project in the development of the nuclear fusion research based ...
This paper summarizes the results presented at the 24th IAEA Fusion Energy Conference in the categor...
This paper summarizes our present understanding of the following energetic/alpha particle physics is...
Edge Localized Modes (ELMs) are repetitive eruptions of particles and energy which occur in many hig...
International audienceKey plasma physics and real-time control elements needed for robustlystable op...
A number of possible designs of external and in-vessel coils generating resonant magnetic perturbati...
AbstractDIII-D physics research addresses critical challenges for the operation of ITER and the next...
Experiments have been carried out at the EAST tokamak to study ITER-relevant scenario integration is...
Recent study suggests that KSTAR could be a benefactor of the extremely low level of intrinsic error...
Resonant Magnetic Perturbations are a method to control the plasma edge. It was shown [Evans ’06] th...
Recent experiments on the ASDEX Upgrade tokamak aim at improving the physics base for ITER and DEMO ...
All current estimations of the energy released by type I edge-localized modes (ELMs) indicate that, ...
Recent experiments on the ASDEX Upgrade tokamak aim at improving the physics base for ITER and DEMO ...
ITER is the international reference project in the development of the nuclear fusion research based ...
This paper summarizes the results presented at the 24th IAEA Fusion Energy Conference in the categor...
This paper summarizes our present understanding of the following energetic/alpha particle physics is...
Edge Localized Modes (ELMs) are repetitive eruptions of particles and energy which occur in many hig...
International audienceKey plasma physics and real-time control elements needed for robustlystable op...
A number of possible designs of external and in-vessel coils generating resonant magnetic perturbati...
AbstractDIII-D physics research addresses critical challenges for the operation of ITER and the next...
Experiments have been carried out at the EAST tokamak to study ITER-relevant scenario integration is...
Recent study suggests that KSTAR could be a benefactor of the extremely low level of intrinsic error...
Resonant Magnetic Perturbations are a method to control the plasma edge. It was shown [Evans ’06] th...