| Nicholas R. Allen | Auburn University, USA | Divertor physics and plasma wall interaction | Observational Studies of Non-Resonant Divertor Strike Line Resiliency in the Compact Toroidal Hybrid Experiment |
| Erol Balkovic | EPFL Swiss Plasma Center, Switzerland | Stellarator optimisation and reactor design | SPECTRE: a fast and robust solver for MHD equilibria with arbitrary magnetic topology |
| Alejandro Banon Navarro | Max Planck Institute for Plasma Physics, Germany | Stellarator optimisation and reactor design | Optimizing Particle Transport for Enhanced Confinement in Quasi-Isodynamic Stellarators |
| Ivan Calvo | CIEMAT, Spain | Stellarator optimisation and reactor design | New classes of optimized stellarators with small bootstrap current |
| Daniel Carralero | CIEMAT, Spain | Plasma transport and confinement | A multi-machine study on turbulence suppression by density peaking in stellarators |
| Xi Chen | Institute of Fusion Science, Southwest Jiaotong University, China | Plasma transport and confinement | Experimental observation of zonal flow oscillations in CFQS-T plasmas |
| Robert Davies | Max Planck Institute for Plasma Physics, Germany | Stellarator optimisation and reactor design | Fast edge magnetic field optimisation techniques and application to Wendelstein 7-X and tokamak-stellarator hybrids |
| Kelly A. Garcia | Universität Greifswald & Max Planck Institute for Plasma Physics, Germany | Divertor physics and plasma wall interaction | Reactor-Scale Island Divertor Simulations of W7-X-like Configurations |
| Per Helander | Max Planck Institute for Plasma Physics, Germany | Energetic particles and MHD | Runaway electrons during a coil quench in stellarators |
| Haifeng Liu | Southwest Jiaotong University, China | Plasma transport and confinement | Recent Studies on Physical Issues in the Chinese First Quasi-axisymmetric Stellarator (CFQS) |
| Ke Liu | University of Science and Technology, China | Stellarator optimisation and reactor design | Directly Construction of the Vacuum Flux Surface with Desired Field by Near-Surface Expansion |
| Tommi Lyytinen | VTT Technical Research Center, Finland | Stellarator optimisation and reactor design | Neutron and alpha particle transport in modern quasi-isodynamic stellarators |
| Richard Nies | University of Oxford, UK | Plasma transport and confinement | Rotation in quasisymmetric stellarators |
| Novimir A. Pablant | Princeton Plasma Physics Laboratory, USA | Stellarator optimisation and reactor design | Recommendations from the US Stellarator Technology and Advanced Research Strategies (STARS) Report |
| Carlos Paz-Soldan | Columbia University, USA | Stellarator optimisation and reactor design | Progress in the Design and Construction of Stellarators at Columbia |
| Michael Richardson | University of Wisconsin – Madison, USA | Plasma transport and confinement | Assessing the Impact of Density Profile Shaping on Trapped Electron Mode Turbulence and Confinement in the HSX Stellarator |
| Juri Romazanov | Forschungszentrum Jülich, Germany | Divertor physics and plasma wall interaction | Tungsten vs. carbon in W7-X: erosion and impurity transport assessment using ERO2.0 for a hypothetical metallic divertor upgrade |
| David Sosa Sánchez | CIEMAT, Spain | Stellarator reactor technology | Nuclear Optimization of Dual Coolant Lithium-Lead Breeding Blanket (DCLL BB) for the HELIAS reactor and implementation over a new CIEMAT-QI4X stellarator configuration. |
| Kenji Tanaka | National Institute for Fusion Science, Japan | Plasma transport and confinement | Configuration effects on transport in LHD; Lessons for configuration optimization |
