Chalmers Plasma Theory

Contact details

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

Email: pusztai at chalmers.se

ORCID: http://orcid.org/0000-0001-5412-4090

Recent publications

I. Ekmark et al., Runaway electron generation in disruptions mitigated by deuterium and noble gas injection in SPARC. Journal of Plasma Physics 91 (3), E82 (2025)
O. Vallhagen et al., Reduced modelling of scrape-off losses of runaway electrons during tokamak disruptions. Journal of Plasma Physics 91 (3), E78 (2025)
Emil R. Ingelsten et al., Data-driven discovery of a heat flux closure for electrostatic plasma phenomena. Journal of Plasma Physics 91 (2), E64 (2025)
Konrad Steinvall et al., Eulerian and Lagrangian electron energization during magnetic reconnection. Journal of Plasma Physics (), (2025)
M. Luo et al., Evolution of autoresonant plasma wave excitation in two-dimensional particle-in-cell simulations. Journal of Plasma Physics 91 (1), E31 (2025)

Turbulence, particle energization, magnetic field generation, data-driven model discovery.

Recent publications

I. Ekmark et al., Runaway electron generation in disruptions mitigated by deuterium and noble gas injection in SPARC. Journal of Plasma Physics 91 (3), E82 (2025)
O. Vallhagen et al., Reduced modelling of scrape-off losses of runaway electrons during tokamak disruptions. Journal of Plasma Physics 91 (3), E78 (2025)
Emil R. Ingelsten et al., Data-driven discovery of a heat flux closure for electrostatic plasma phenomena. Journal of Plasma Physics 91 (2), E64 (2025)
Konrad Steinvall et al., Eulerian and Lagrangian electron energization during magnetic reconnection. Journal of Plasma Physics (), (2025)
M. Luo et al., Evolution of autoresonant plasma wave excitation in two-dimensional particle-in-cell simulations. Journal of Plasma Physics 91 (1), E31 (2025)