Add to ORKGAxisymmetric MHD simulations have revealed a new driving mechanism that governs the vertical displacement event (VDE) dynamics in tokamak disruptions. A rapid flattening of the plasma current profile during the disruption plays a substantial role in dragging a single null-diverted plasma vertically towards the divertor. As a consequence, the occurrence of downward-going VDEs predominates over the upward- going ones in bottom-diverted discharges. This dragging effect, due to an abrupt change in the current profile, is absent in up-down symmetric limiter discharges. These simulation results are consistent with experiments in ASDEX-Upgrade. Together with the attractive force that arises from passive shell currents induced by the plasma current...
In view of the modification to the JET plasma facing components foreseen for the 2004 shutdown, the ...
MHD modes always occur in ASDEX Upgrade before q-limit and density limit disruptions. The modulation...
In this paper, we present the electromechanical coupled analysis of the ITER vacuum vessel in case o...
Axisymmetric MHD simulations have revealed a new driving mechanism that governs the vertical displac...
Experiments and axisymmetric MHD simulations on tokamak disruptions have explicated the underlying m...
Experiments and axisymmetric MHD simulations on tokamak disruptions have explicated the underlying m...
Tokamak plasmas with highly elongated cross sections are subject to a vertical displacement event (V...
Asymmetric vertical disruption events (AVDEs) are fortunately rare, but can induce large lateral for...
This paper deals with the halo current distribution due to asymmetric vertical displacement events (...
Tokamak plasmas with highly elongated cross sections are subject to a vertical displacement event (V...
A small fraction of plasma disruptions at JET lead to a significant horizontal displacement of the v...
Axisymmetric MHD simulation using the Tokamak Simulation Code demonstrated detailed disruption dynam...
Introduction: Halo currents and the associated j×B forces on the vacuum vessel are a primary consequ...
Vertical Displacement Events (VDEs) are a major concern for future tokamak operation since their con...
During some JET vertical displacement events (VDEs) plasma current and position are found to be toro...
In view of the modification to the JET plasma facing components foreseen for the 2004 shutdown, the ...
MHD modes always occur in ASDEX Upgrade before q-limit and density limit disruptions. The modulation...
In this paper, we present the electromechanical coupled analysis of the ITER vacuum vessel in case o...
Axisymmetric MHD simulations have revealed a new driving mechanism that governs the vertical displac...
Experiments and axisymmetric MHD simulations on tokamak disruptions have explicated the underlying m...
Experiments and axisymmetric MHD simulations on tokamak disruptions have explicated the underlying m...
Tokamak plasmas with highly elongated cross sections are subject to a vertical displacement event (V...
Asymmetric vertical disruption events (AVDEs) are fortunately rare, but can induce large lateral for...
This paper deals with the halo current distribution due to asymmetric vertical displacement events (...
Tokamak plasmas with highly elongated cross sections are subject to a vertical displacement event (V...
A small fraction of plasma disruptions at JET lead to a significant horizontal displacement of the v...
Axisymmetric MHD simulation using the Tokamak Simulation Code demonstrated detailed disruption dynam...
Introduction: Halo currents and the associated j×B forces on the vacuum vessel are a primary consequ...
Vertical Displacement Events (VDEs) are a major concern for future tokamak operation since their con...
During some JET vertical displacement events (VDEs) plasma current and position are found to be toro...
In view of the modification to the JET plasma facing components foreseen for the 2004 shutdown, the ...
MHD modes always occur in ASDEX Upgrade before q-limit and density limit disruptions. The modulation...
In this paper, we present the electromechanical coupled analysis of the ITER vacuum vessel in case o...