Chalmers Plasma Theory

Contact details

Address
Department of Physics
Chalmers University of Technology
SE-412 96 Göteborg
Sweden

Email: vaoskar at chalmers.se

Recent publications

Nico J. Guth et al., Pellet Rocket Effect in Magnetic Confinement Fusion Plasmas. Physical Review Letters 134 (3), 035101 (2025)
Peter Halldestam et al., Reduced kinetic modelling of shattered pellet injection in ASDEX Upgrade. Journal of Plasma Physics (), (2025)
N. J. Guth et al., The effect of plasmoid drifts on the pellet rocket effect in magnetic confinement fusion plasmas. Journal of Plasma Physics (), (2025)
Oskar Vallhagen et al., Reduced modeling of scrape-off losses of runaway electrons during tokamak disruptions. Journal of Plasma Physics (), (2025)
A. Fil et al., Disruption runaway electron generation and mitigation in the Spherical Tokamak for Energy Production (STEP). Nuclear Fusion 64 (10), 106049 (2024)

Presentation of my research area: [Disruption and runaway electron mitigation](https://drive.google.com/file/d/1txe_cN_Z5Tcdd2C0p06RWSlRH0H5eKrz/view).

Recent publications

Nico J. Guth et al., Pellet Rocket Effect in Magnetic Confinement Fusion Plasmas. Physical Review Letters 134 (3), 035101 (2025)
Peter Halldestam et al., Reduced kinetic modelling of shattered pellet injection in ASDEX Upgrade. Journal of Plasma Physics (), (2025)
N. J. Guth et al., The effect of plasmoid drifts on the pellet rocket effect in magnetic confinement fusion plasmas. Journal of Plasma Physics (), (2025)
Oskar Vallhagen et al., Reduced modeling of scrape-off losses of runaway electrons during tokamak disruptions. Journal of Plasma Physics (), (2025)
A. Fil et al., Disruption runaway electron generation and mitigation in the Spherical Tokamak for Energy Production (STEP). Nuclear Fusion 64 (10), 106049 (2024)