Mathias Hoppe Alumni
PhD student
Recent publications
  1. Peter Halldestam et al., Reduced kinetic modelling of shattered pellet injection in ASDEX Upgrade. Journal of Plasma Physics (), (2025)
  2. Oskar Vallhagen et al., Reduced modeling of scrape-off losses of runaway electrons during tokamak disruptions. Journal of Plasma Physics (), (2025)
  3. A. Fil et al., Disruption runaway electron generation and mitigation in the Spherical Tokamak for Energy Production (STEP). Nuclear Fusion 64 (10), 106049 (2024)
  4. O. Vallhagen et al., Runaway electron dynamics in ITER disruptions with shattered pellet injections. Nuclear Fusion 64 (8), 086033 (2024)
  5. I. Ekmark et al., Fluid and kinetic studies of tokamak disruptions using Bayesian optimization. Journal of Plasma Physics 90 (3), 905900306 (2024)
Note: This researcher is no longer affiliated with Chalmers University of Technology.
Author of the DREAM runaway electron simulation framework (<https://github.com/chalmersplasmatheory/DREAM>) and the SOFT synthetic diagnostic framework: <https://github.com/hoppe93/SOFT2>. Working since April 2023 as assistant professor in Fusion Plasma Physics at the KTH Royal Institute of Technology, Stockholm, Sweden. ##### Selected publications 1. *SOFT: a synthetic synchrotron diagnostic*, in [Nuclear Fusion **58** (2), 026032](https://doi.org/10.1088/1741-4326/aa9abb) (2018) ([arXiv:1709.00674](https://arxiv.org/abs/1709.00674)) 2. Licentiate thesis (PDF)
Recent publications
  1. Peter Halldestam et al., Reduced kinetic modelling of shattered pellet injection in ASDEX Upgrade. Journal of Plasma Physics (), (2025)
  2. Oskar Vallhagen et al., Reduced modeling of scrape-off losses of runaway electrons during tokamak disruptions. Journal of Plasma Physics (), (2025)
  3. A. Fil et al., Disruption runaway electron generation and mitigation in the Spherical Tokamak for Energy Production (STEP). Nuclear Fusion 64 (10), 106049 (2024)
  4. O. Vallhagen et al., Runaway electron dynamics in ITER disruptions with shattered pellet injections. Nuclear Fusion 64 (8), 086033 (2024)
  5. I. Ekmark et al., Fluid and kinetic studies of tokamak disruptions using Bayesian optimization. Journal of Plasma Physics 90 (3), 905900306 (2024)
Copyright © 2025 Chalmers Plasma Theory group