Add to ORKGWe present an overview of simulations results for energetic particle dynamics in tokamak plasmas that were obtained with the MHD-PIC hybrid code MEGA on the Helios supercomputer, which was in operation at QST Rokkasho Fusion Institute until December 2016.Plasma Conference 2017[PLASMA2017](第34回年会
Focusing on long-wavelength modes with toroidal mode numbers n=1-4, thehybrid code MEGA was used to ...
A relaxation even known as “sawtooth crash” is simulated in a large tokamak plasma with monotonic sa...
Energetic particle driven geodesic acoustic modes (EGAMs) in Large Helical Device plasmas are invest...
The hybrid code MEGA developed at NIFS/Japan is now playing a world-leading role in energetic partic...
The hybrid code MEGA developed at NIFS/Japan is now playing a world-leading role in energetic partic...
The hybrid code MEGA developed at NIFS/Japan is now playing a world-leading role in energetic partic...
Energetic particle physics is the study of the effects of energetic particles on collective electrom...
The interaction between energetic particles (EPs) and EP-driven magnetohydrodynamic (MHD) instabilit...
A summary of simulation results obtained with the hybrid code MEGA during the operation period of He...
Energetic particle (EP)-driven instabilities will be of strongly increased relevance in future burni...
In the recent years the PIC simulations of plasma sources have become increasingly important to inve...
We discuss two contributions that elucidate the impact of energetic particles and rotation on tokama...
Abstract. Energetic Particle Modes [1] (EPM) are strongly driven oscillations excited via wave-parti...
International audienceIn order to model the magnetic field amplification and particle acceleration t...
In 2010, the Numerical Experiment of Tokamak (NEXT) project launched research focussing on energetic...
Focusing on long-wavelength modes with toroidal mode numbers n=1-4, thehybrid code MEGA was used to ...
A relaxation even known as “sawtooth crash” is simulated in a large tokamak plasma with monotonic sa...
Energetic particle driven geodesic acoustic modes (EGAMs) in Large Helical Device plasmas are invest...
The hybrid code MEGA developed at NIFS/Japan is now playing a world-leading role in energetic partic...
The hybrid code MEGA developed at NIFS/Japan is now playing a world-leading role in energetic partic...
The hybrid code MEGA developed at NIFS/Japan is now playing a world-leading role in energetic partic...
Energetic particle physics is the study of the effects of energetic particles on collective electrom...
The interaction between energetic particles (EPs) and EP-driven magnetohydrodynamic (MHD) instabilit...
A summary of simulation results obtained with the hybrid code MEGA during the operation period of He...
Energetic particle (EP)-driven instabilities will be of strongly increased relevance in future burni...
In the recent years the PIC simulations of plasma sources have become increasingly important to inve...
We discuss two contributions that elucidate the impact of energetic particles and rotation on tokama...
Abstract. Energetic Particle Modes [1] (EPM) are strongly driven oscillations excited via wave-parti...
International audienceIn order to model the magnetic field amplification and particle acceleration t...
In 2010, the Numerical Experiment of Tokamak (NEXT) project launched research focussing on energetic...
Focusing on long-wavelength modes with toroidal mode numbers n=1-4, thehybrid code MEGA was used to ...
A relaxation even known as “sawtooth crash” is simulated in a large tokamak plasma with monotonic sa...
Energetic particle driven geodesic acoustic modes (EGAMs) in Large Helical Device plasmas are invest...