In order to contribute to the understanding of runaway electron generation mechanisms during tokamak disruptions, a test particle tracker is introduced in the JOREK 3D non-linear MHD code, able to compute both full and guiding center relativistic orbits. Tests of the module show good conservation of the invariants of motion and consistency between full orbit and guiding center solutions. A first application is presented where test electron confinement properties are investigated in a massive gas injection-triggered disruption simulation in JET-like geometry. It is found that electron populations initialised before the thermal quench (TQ) are typically not fully deconfined in spite of the global stochasticity of the magnetic field during the...
Runaways are suprathermal electrons having sufficiently high energy to be continuously accelerated u...
Runaways are suprathermal electrons having sufficiently high energy to be continuously accelerated u...
Runaways are suprathermal electrons having sufficiently high energy to be continuously accelerated u...
In order to contribute to the understanding of runaway electron generation mechanisms during tokamak...
In order to contribute to the understanding of runaway electron generation mechanisms during tokamak...
In order to contribute to the understanding of runaway electron generation mechanisms during tokamak...
In order to contribute to the understanding of runaway electron generation mechanisms during tokamak...
In order to contribute to the understanding of runaway electron generation mechanisms during tokamak...
In order to contribute to the understanding of runaway electron generation mechanisms during tokamak...
In order to contribute to the understanding of runaway electron generation mechanisms during tokamak...
In order to contribute to the understanding of runaway electron generation mechanisms during tokamak...
\u3cp\u3eIn order to contribute to the understanding of runaway electron generation mechanisms durin...
Runaways are suprathermal electrons having sufficiently high energy to be continuously accelerated u...
Runaways are suprathermal electrons having sufficiently high energy to be continuously accelerated u...
Runaways are suprathermal electrons having sufficiently high energy to be continuously accelerated u...
Runaways are suprathermal electrons having sufficiently high energy to be continuously accelerated u...
Runaways are suprathermal electrons having sufficiently high energy to be continuously accelerated u...
Runaways are suprathermal electrons having sufficiently high energy to be continuously accelerated u...
In order to contribute to the understanding of runaway electron generation mechanisms during tokamak...
In order to contribute to the understanding of runaway electron generation mechanisms during tokamak...
In order to contribute to the understanding of runaway electron generation mechanisms during tokamak...
In order to contribute to the understanding of runaway electron generation mechanisms during tokamak...
In order to contribute to the understanding of runaway electron generation mechanisms during tokamak...
In order to contribute to the understanding of runaway electron generation mechanisms during tokamak...
In order to contribute to the understanding of runaway electron generation mechanisms during tokamak...
In order to contribute to the understanding of runaway electron generation mechanisms during tokamak...
\u3cp\u3eIn order to contribute to the understanding of runaway electron generation mechanisms durin...
Runaways are suprathermal electrons having sufficiently high energy to be continuously accelerated u...
Runaways are suprathermal electrons having sufficiently high energy to be continuously accelerated u...
Runaways are suprathermal electrons having sufficiently high energy to be continuously accelerated u...
Runaways are suprathermal electrons having sufficiently high energy to be continuously accelerated u...
Runaways are suprathermal electrons having sufficiently high energy to be continuously accelerated u...
Runaways are suprathermal electrons having sufficiently high energy to be continuously accelerated u...