@article{article,
  author = {M. Hoelzl and N. Schwarz and G. T. A. Huijsmans and F. J. Artola and D. Hu and G. Su and E. Nardon and N. Isernia and P. Rac and D. Maris and A. Cathey and et al.},
  title = {Advances in 3D transient plasma dynamics and control through MHD and hybrid fluid-kinetic simulations with JOREK},
  abstract = {Transient phenomena and their control are of high relevance in magnetic confinement fusion plasmas to guarantee a stable and safe plasma operation. Interpretative simulations can maximize the insights gained from experiments on present machines and predictive simulations can help in the preparation of design, mitigation techniques and operational scenarios for future devices. In this article, we provide an overview of recent advances and novel scientific results obtained with the 3D non-linear hybrid fluid-kinetic code JOREK, covering physics of plasma transients from the core to the scrape-off layer (SOL) both for tokamak and stellarator devices. Substantial progress was made in the physics understanding, model validation with experiments and experiment interpretation, thus, giving confidence for predictions to devices like DTT, ITER and DEMO. The topics addressed comprise a wide range: the edge physics of new operation scenarios and edge localized mode suppression; major disruptions with a focus on runaway electrons and vertical displacement events as well as disruption mitigation by shattered pellet injection; the physics mechanisms and operational limits of the flux pumping regime for sawtooth control; MHD limits of stellarators and work towards incorporating advanced edge/SOL/exhaust dynamics; continuing improvements of the code for more efficient hybrid simulations on conventional and accelerated high performance computing architectures.},
  year = {2026},
  journal = {Nuclear Fusion},
  volume = {66},
  pages = {116006},
  publisher = {IOP Publishing},
  doi = {10.1088/1741-4326/ae6790},
  language = {eng},
}