Add to ORKGThe transport of energetic electrons is sensitive to magnetic perturbations. By using 3D numerical simulation of test particle drift orbits we show that the transport of untrapped electrons through an open region with magnetic perturbations cannot be described by a diffusive process. Based on our test particle simulations, we propose a model that leads to an exponential loss of particles
Kinetic simulations of Sandia National Laboratories’ Z machine are conducted to understand particle ...
International audienceThe confinement of energetic particles in nuclear fusion devices is studied in...
This dissertation addresses the problem of energization of particles (both electrons and ions) to te...
The transport of energetic electrons is sensitive to magnetic perturbations. By using 3D numerical s...
The confinement of energetic particles (EP) in nuclear fusion devices is studied in the presence of ...
Particle-in-cell simulations of plasma are employed for the study of magnetic reconnection process. ...
In our work we use particle-in-cell simulations of plasma for the study of magnetic reconection. Det...
Abstract. In our work we employ particle-in-cell simulation of plasma for the study of magnetic reco...
Disruptions in large tokamaks can lead to the generation of a relativistic runaway (RE) electron bea...
International audienceCharged particles with low kinetic energy move along magnetic field lines, but...
Particle transport in magnetized plasmas is investigated with a fluid model of drift wave turbulence...
In this paper the effect of resonant magnetic perturbations (RMPs) on the net radial transport of ru...
The progress and further improvements of modern technology associated with the non-equilibrium magne...
We consider the anomalous electron and heat transport in a tokamak plasma. The electrons are describ...
Any collisionless plasma possesses some “available energy” (AE), defined as that part of the thermal...
Kinetic simulations of Sandia National Laboratories’ Z machine are conducted to understand particle ...
International audienceThe confinement of energetic particles in nuclear fusion devices is studied in...
This dissertation addresses the problem of energization of particles (both electrons and ions) to te...
The transport of energetic electrons is sensitive to magnetic perturbations. By using 3D numerical s...
The confinement of energetic particles (EP) in nuclear fusion devices is studied in the presence of ...
Particle-in-cell simulations of plasma are employed for the study of magnetic reconnection process. ...
In our work we use particle-in-cell simulations of plasma for the study of magnetic reconection. Det...
Abstract. In our work we employ particle-in-cell simulation of plasma for the study of magnetic reco...
Disruptions in large tokamaks can lead to the generation of a relativistic runaway (RE) electron bea...
International audienceCharged particles with low kinetic energy move along magnetic field lines, but...
Particle transport in magnetized plasmas is investigated with a fluid model of drift wave turbulence...
In this paper the effect of resonant magnetic perturbations (RMPs) on the net radial transport of ru...
The progress and further improvements of modern technology associated with the non-equilibrium magne...
We consider the anomalous electron and heat transport in a tokamak plasma. The electrons are describ...
Any collisionless plasma possesses some “available energy” (AE), defined as that part of the thermal...
Kinetic simulations of Sandia National Laboratories’ Z machine are conducted to understand particle ...
International audienceThe confinement of energetic particles in nuclear fusion devices is studied in...
This dissertation addresses the problem of energization of particles (both electrons and ions) to te...