Add to ORKGRunaway electrons can be generated in disruptions by the Dreicer, hot tail and avalanche mechanisms. Analytical and numerical results for hot tail runaway generation are included in a one-dimensional model of electric field, temperature and runaway current, which is applied to simulate disruptions and fast shutdown. The peaked shape of the runaway current density profile may cause tearing modes to become unstable. Fast shutdown is studied by prescribing varying amounts of injected impurities. Large argon content suppresses runaways in JET simulations but causes hot tail generation in ITER. A pellet code is coupled to the runaway model, and it is extended to enable simulations of carbon doped deuterium pellet injection. Such pellets are seen...
The hot-tail (H-T) effect in disruption of impurity injections is considered. The contribution of th...
Runaway electrons represent a serious problem for the reliable operation of the future experimental ...
Runaway electrons represent a serious problem for the reliable operation of the future experimental ...
Runaway electrons can be generated in disruptions by the Dreicer, hot tail and avalanche mechanisms....
Runaway electrons can be generated in disruptions by the Dreicer, hot tail and avalanche mechanisms....
Disruptions are dangerous instabilities in tokamaks that should be avoided or mitigated. One possibl...
Disruptions are dangerous instabilities in tokamaks that should be avoided or mitigated. One possibl...
Disruptions in a large tokamak can cause serious damage to the device and should be avoided or mitig...
Disruptions in a large tokamak can cause serious damage to the device and should be avoided or mitig...
Hot tail runaway electron generation is caused by incomplete thermalization of the electron velocity...
Tokamak discharges are sometimes terminated by disruptions that may cause large mechanical and therm...
Disruptions in tokamak devices are phenomena where the plasma loses its confinement suddenly, on tim...
Hot tail runaway electron generation in tokamak disruptions is caused by incomplete thermal-ization ...
Disruptions in tokamak devices are phenomena where the plasma loses its confinement suddenly, on tim...
A systematic study of disruption-generated runaway electrons has been performed in the J-TEXT tokama...
The hot-tail (H-T) effect in disruption of impurity injections is considered. The contribution of th...
Runaway electrons represent a serious problem for the reliable operation of the future experimental ...
Runaway electrons represent a serious problem for the reliable operation of the future experimental ...
Runaway electrons can be generated in disruptions by the Dreicer, hot tail and avalanche mechanisms....
Runaway electrons can be generated in disruptions by the Dreicer, hot tail and avalanche mechanisms....
Disruptions are dangerous instabilities in tokamaks that should be avoided or mitigated. One possibl...
Disruptions are dangerous instabilities in tokamaks that should be avoided or mitigated. One possibl...
Disruptions in a large tokamak can cause serious damage to the device and should be avoided or mitig...
Disruptions in a large tokamak can cause serious damage to the device and should be avoided or mitig...
Hot tail runaway electron generation is caused by incomplete thermalization of the electron velocity...
Tokamak discharges are sometimes terminated by disruptions that may cause large mechanical and therm...
Disruptions in tokamak devices are phenomena where the plasma loses its confinement suddenly, on tim...
Hot tail runaway electron generation in tokamak disruptions is caused by incomplete thermal-ization ...
Disruptions in tokamak devices are phenomena where the plasma loses its confinement suddenly, on tim...
A systematic study of disruption-generated runaway electrons has been performed in the J-TEXT tokama...
The hot-tail (H-T) effect in disruption of impurity injections is considered. The contribution of th...
Runaway electrons represent a serious problem for the reliable operation of the future experimental ...
Runaway electrons represent a serious problem for the reliable operation of the future experimental ...