| Oral | Achilleas Evangelias | Achilleas Evangelias | Stellarator optimisation and reactor design | Effect of aspect ratio on ideal MHD equilibrium and stability of optimized stellarator configurations |
| Oral | 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 |
| Oral | Andrew Giuliani | Center for Computational Mathematics, Flatiron Institute | Stellarator optimisation and reactor design | STAR_Lite: a quasi-axisymmetric stellarator optimized for flexibility |
| Oral | Vicente Queral | CIEMAT | Stellarator optimisation and reactor design | On miniature ultra-high-field stellarator reactors with breeding external to resistive coils |
| Oral | Jose Ángel Noguerón | CIEMAT | Stellarator reactor technology | Automating Multiphysics Workflows for Breeding Blanket Design in stellarators |
| Oral | José Luis Velasco | CIEMAT | Stellarator optimisation and reactor design | Piecewise omnigenous magnetohydrodynamic equilibria as fusion reactor candidates |
| Poster | Belén López-Miranda | CIEMAT (Laboratorio Nacional de Fusión) | Energetic particles and MHD | Relative estimation of fast-ion losses in the TJ-II stellarator under different NBI-heating scenarios |
| Oral | 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. |
| Oral | Ivan Calvo | CIEMAT, Spain | Stellarator optimisation and reactor design | New classes of optimized stellarators with small bootstrap current |
| Oral | Daniel Carralero | CIEMAT, Spain | Plasma transport and confinement | A multi-machine study on turbulence suppression by density peaking in stellarators |
| Oral | Juan Gallego | CIEMAT, Spain | Scenario integration and operation limits | Study of the density limit physics for stellarator devices by means of an energy balance model |
| Poster | Rohan Lopez | Columbia University | Stellarator optimisation and reactor design | Sensitivity Analysis for the Columbia Stellarator eXperiment |
| Oral | Allen H Boozer | Columbia University | Plasma transport and confinement | Magnetic field line chaos, cantori, and turnstiles |
| Poster | Elizabeth Paul | Columbia University | Energetic particles and MHD | FIRM3D: An open-source suite for energetic particle confinement analysis in optimized stellarator equilibria |
| Oral | Carlos Paz-Soldan | Columbia University, USA | Stellarator optimisation and reactor design | Progress in the Design and Construction of Stellarators at Columbia |
| Poster | Lanke Fu | Courant Institute of Mathematical Sciences | Stellarator optimisation and reactor design | Gradient-driven combined-coil-plasma optimization of permanent magnet stellarators |
| Poster | Z. H. Gao | Dalian University of Technology | Plasma transport and confinement | 3D effects of divertor target biasing on edge plasma transport and heat load distribution in EAST |
| Poster | J. T. Wang | Dalian University of Technology | Divertor physics and plasma wall interaction | Improvement of three-dimensional divertor target design processes for stellarators |
| Poster | Sadayoshi Murakami | Department of Nuclear Engineering, Kyoto University | Scenario integration and operation limits | Adaptive Predictive Control of LHD and HSX Plasmas Using Data Assimilation System ASTI |
| Oral | Joaquim Loizu | EPFL | Plasma transport and confinement | Polaris: a new small-scale, flexible, stellarator experiment |
| Oral | 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 |
| Oral | Misha Padidar | Flatiron Institute | Stellarator optimisation and reactor design | Single-stage stellarator optimization for near-axis quasisymmetry with a pressure gradient |
| Oral | Andreas Krämer-Flecken | Forschungszentrum Jülich GmbH | Plasma transport and confinement | Evidence for density gradient driven high frequency modes in W7-X |
| Oral | Daniil Ryndyk | Forschungszentrum Jülich GmbH, Institute of Fusion Energy and Nuclear Waste Management – Plasma Physics, 52425 Jülich, Germany | Divertor physics and plasma wall interaction | EMC3-EIRENE predictions of radiative detachment scenarios in W7-X equipped with a tungsten based divertor |
| Oral | 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 |
| Poster | Georg Grassler | Fusion@OEAW, Graz University of Technology | Stellarator optimisation and reactor design | Effects of the electric field on the low collisionality bootstrap current asymptotic in near omnigenous devices |
| Poster | Dana Douqa | Gauss Fusion | Divertor physics and plasma wall interaction | Divertor physics basis for the Gauss Fusion power plant conceptual design |
| Poster | António J. Coelho | Gauss Fusion GmbH, Garching bei München, Germany | Plasma transport and confinement | Transport modeling of the GIGA stellarator power plant plasma |
| Poster | Ashit Kumar Nath | Graduate School of Advanced Science and Engineering, Hiroshima University | Stellarator optimisation and reactor design | Development of a university-scale tabletop stellarator using tilted circular coils. |
| Poster | Georg Harrer | Hampton University | Stellarator reactor technology | Experimental Commissioning of the STAR_Lite Stellarator: In-House Fabrication and Workforce Development |
| Oral | Shibabrat Naik | Hampton University | Divertor physics and plasma wall interaction | From Code to Coil: The STAR Lite Experimental Program for Divertor Physics |
| Oral | Yasuhiro Suzuki | Hiroshima University | Plasma transport and confinement | First Plasma of HU-Heliac |
| Poster | Kazunobu Nagasaki | Institute of Advanced Energy, Kyoto University | Plasma transport and confinement | Configuration Dependence of Energy Confinement and Available Energy in Heliotron J and VAST |
| Poster | Shigeru Inagaki | Institute of Advanced Energy, Kyoto University | Energetic particles and MHD | Statistical Characterization of Bursty and Intermittent Magnetic Fluctuations in Heliotron J Plasmas |
| Oral | Shinichiro Kado | Institute of advanced energy, Kyoto University | Plasma transport and confinement | Advanced Diagnostic Approaches to Hydrogen Pellet Fueling in Heliotron J: From Ablation Dynamics to Reheat Phenomena |
| Poster | Xirui Liu | Institute of Fusion Science, School of Physical Science and Technology, Southwest Jiaotong University | Stellarator reactor technology | Magnetic flux surface mapping system at Chinese First Quasi-axisymmetric Stellarator |
| Oral | Heng Lan | Institute of Fusion Science, School of Physical Science and Technology, Southwest Jiaotong University | Energetic particles and MHD | Experimental study of the low and high-frequency electromagnetic fluctuations in the quasi-axisymmetric stellarator CFQS-T |
| Poster | Hai Liu | Institute of Fusion Science, School of Physical Science and Technology, Southwest Jiaotong University, Chengdu, 610041, People’s Republic of China | Plasma transport and confinement | Study on power deposition of 2.45 GHz microwave heating in CFQS-T overdense plasma |
| Poster | Danni Wu | Institute of Fusion Science, School of Physical Science and Technology, Southwest Jiaotong University, China | Plasma transport and confinement | First measurements of a neutral beam probe diagnostic for the test device of Chinese First Quasi-axisymmetric Stellarator (CFQS-T) |
| Poster | Z. S. Shi | Institute of Fusion Science, Southwest Jiaotong University, Chengdu 610031, China | Plasma transport and confinement | Experimental observation of the magnetic island-induced edge transport barrier in the optimized CFQS-T plasma |
| Oral | Xi Chen | Institute of Fusion Science, Southwest Jiaotong University, China | Plasma transport and confinement | Experimental observation of zonal flow oscillations in CFQS-T plasmas |
| Oral | Yurii Kovtun | Institute of Plasma Physics, NSC KIPT, Kharkiv, Ukraine | Scenario integration and operation limits | Overview of ICRF plasma production and heating at LHD |
| Poster | Elias Waagaard | IPP Garching | Divertor physics and plasma wall interaction | Sheath Boundary Conditions for Stellarator Applications in JOREK |
| Poster | Eduardo Rodriguez | IPP Max Planck - Greifswald | Stellarator optimisation and reactor design | Exploring the space of quasi-isodynamic stellarators: a near-axis quasi-isodynamic database |
| Oral | Jacobo Varela Rodriguez | Jacobo Varela Rodriguez | Energetic particles and MHD | Bursting activity in LHD plasma induced by multiple EP populations |
| Poster | Alejandro González Ganzábal | Laboratorio Nacional de Fusión - CIEMAT | Scenario integration and operation limits | Development of a standardised TJ-II database for Machine Learning models and applications |
| Oral | E. Sánchez | Laboratorio Nacional de fusión - CIEMAT | Stellarator optimisation and reactor design | The CIEMAT-QI family of optimized quasi-isodynamic stellarator configurations |
| Poster | A. Cappa | Laboratorio Nacional de Fusion CIEMAT | Energetic particles and MHD | Simulations of Neutral Beam Injection in the TJ-II stellarator |
| Poster | Kieran Joseph McCarthy | Laboratorio Nacional de Fusión, Ciemat | Plasma transport and confinement | The observation of low-frequency oscillations in bolometer and soft X-ray signals after multiple pellet injections into the stellarator TJ-II |
| Poster | Lucas van Ham | Max Planck Insitute for Plasma Physics | Stellarator reactor technology | Modeling stray magnetic fields in the Wendelstein 7-X neutral beam box |
| Poster | Annika Zettl | Max Planck Institute for Physics, Greifswald and University of Greifswald | Stellarator optimisation and reactor design | Banana Coil Optimization for novel Tokamak-Stellarator Hybrids |
| Poster | Emily McDougall | Max Planck Institute for Plasma Physics | Stellarator optimisation and reactor design | Quantifying drift effects on particle strike line position and profile shape using Hα reionization emission |
| Poster | Don Lawrence Carl Agapito Fernando | Max Planck Institute for Plasma Physics | Plasma transport and confinement | Reduced Models for Turbulent Transport in W7-X |
| Poster | Edith Victoria Hausten | Max Planck Institute for Plasma Physics | Energetic particles and MHD | Advancing high-beta plasma equilibrium analysis for the Wendelstein 7-X Stellarator |
| Oral | Paul Costello | Max Planck Institute for Plasma Physics | Plasma transport and confinement | Bounding linear gyrokinetic instability growth in general magnetic geometry |
| Oral | Hugo Isaac Cu-Castillo | Max Planck Institute for Plasma Physics | Plasma transport and confinement | Microtearing mode turbulence and its role in high-density-gradient plasmas in the Wendelstein 7-X stellarator |
| Poster | Valeria Perseo | Max Planck Institute for Plasma Physics | Divertor physics and plasma wall interaction | Changes in the scrape-off layer transport of the Wendelstein 7-X island divertor at increased power operation |
| Oral | E. V. Stenson | Max Planck Institute for Plasma Physics | Stellarator optimisation and reactor design | Design and engineering tests for EPOS, a stellarator for e+e- plasmas |
| Poster | Orin Varley | Max Planck Institute for Plasma Physics, Garching, Germany | Energetic particles and MHD | Modelling of Island Divertor Topology and Edge MHD Instabilities in Stellarators with JOREK |
| Oral | Robert Babin | Max Planck Institute for Plasma Physics, Garching, Germany | Stellarator optimisation and reactor design | Enabling stellarator optimization beyond cylindrical coordinates |
| Oral | 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 |
| Oral | Per Helander | Max Planck Institute for Plasma Physics, Germany | Energetic particles and MHD | Runaway electrons during a coil quench in stellarators |
| Oral | 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 |
| Oral | Markus Wappl | Max Planck Institute for Plasma Physics, Greifswald 17491, Germany | Plasma transport and confinement | Steady-state high performance at W7-X: Density control and dependence on magnetic configuration |
| Oral | Neha Chaudhary | Max Planck Institute for Plasma Physics, Greifswald, Germany | Energetic particles and MHD | High-Resolution Assessment of the Shafranov Shift and Plasma Equilibrium through ECE for stellarator optimization |
| Poster | Stylianos Varoutis | Max Planck Institute for Plasma Physics, Greifswald, Germany | Stellarator reactor technology | Machine learning surrogate models for helium exhaust prediction at Wendelstein 7-X |
| Poster | J.F. Guerrero Arnaiz | Max Planck Institute for Plasma Physics, Greifswald, Germany | Plasma transport and confinement | Ray-tracing study of 3rd harmonic ECE emissions in high-density optically thin W7-X plasmas |
| Poster | J. P. Bähner | Max Planck Institute for Plasma Physics, Greifswald, Germany | Plasma transport and confinement | Turbulent density fluctuations in Wendelstein 7-X increased iota configurations with internal magnetic islands |
| Oral | Arun Pandey | Max Planck Institute for Plasma Physics, Greifswald, Germany | Divertor physics and plasma wall interaction | Experimental observations of the effect of island geometry modifications on divertor plasma parameters in Wendelstein 7-X |
| Oral | Naoki Tamura | Max-Planck Insitute for Plasma Physics | Plasma transport and confinement | A Comprehensive Study of the Effect of Additional Heating on Impurity Behavior in NBI-Heated LHD Plasmas |
| Poster | Pedro Pons-Villalonga | Max-Planck Institute for Plasma Physics, 17491 Greifswald, Germany | Energetic particles and MHD | Understanding experimental measurements of Alfvén eigenmode mode numbers made with magnetic fluctuation diagnostics in stellarators |
| Oral | Florian Hindenlang | Max-Planck Institute for Plasma Physics, Garching, Germany | Stellarator optimisation and reactor design | GVEC: A flexible 3D MHD equilibrium solver |
| Poster | Carl Wilhelm Rogge | Max-Planck-Institut für Plasmaphysik | Energetic particles and MHD | Towards modelling pellet-produced plasmoid dynamics in stellarators using the nonlinear MHD code JOREK |
| Oral | Dorothea Gradic | Max-Planck-Institut für Plasmaphysik (Greifswald) | Divertor physics and plasma wall interaction | Stark broadening analysis for density measurements in the divertor SOL of Wendelstein 7-X |
| Oral | Ralf Kleiber | Max-Planck-Institut für Plasmaphysik, 17491 Greifswald, Germany | Plasma transport and confinement | Global neoclassical radial-electric-field calculations for the ion-electron-root transition in Wendelstein 7-X |
| Poster | Alice Bonciarelli | Max-Planck-Institut für Plasmaphysik, Wendelsteinstr. 1, 17491 Greifswald, Germany | Divertor physics and plasma wall interaction | Localized probe measurements across magnetic islands: implications for divertor operation in W7-X |
| Oral | Adrian von Stechow | Max-Planck-Institute for Plasma Physics | Plasma transport and confinement | Reducing core turbulence by gradient control for high performance Wendelstein 7-X plasmas |
| Oral | Christoph Pitzal | Max-Planck-Institute for Plasma Physics (Germany) | Plasma transport and confinement | Simulating Edge and SOL Turbulence in Stellarators - Advances with GRILLIX on W7-AS and W7-X |
| Oral | Axel Könies | Max-Planck-Institute for Plasma Physics, 17941 Greifswald, Germany | Energetic particles and MHD | Beyond MHD: A gyrokinetic view of large-scale instabilities |
| Poster | Matthias Otte | Max-Planck-Institute for Plasma Physics, Wendelsteinstr. 1, 17491 Greifswald, Germany | Stellarator optimisation and reactor design | Vacuum Magnetic Flux Surface Measurements at Wendelstein 7-X |
| Poster | E. Maragkoudakis | Max-Planck-Institute für Plasmaphysik, Greifswald, Germany | Plasma transport and confinement | Investigating the impact of the magnetic mirror ratio on the amplitude of density fluctuations and the radial electric field in Wendelstein 7-X |
| Poster | Thomas WIndisch | MPI for Plasma Physics | Plasma transport and confinement | Doppler backscattering diagnostics at Wendelstein 7-X |
| Oral | Guillermo Gómez Fonfría | National Fusion Laboratory - CIEMAT, Avenida Complutense, 40, 28040 Madrid, Spain | Stellarator reactor technology | MHD analysis of liquid metal breeding blankets in stellarator-relevant conditions |
| Oral | Yuki Takemura | National Institure for Fusion Science | Energetic particles and MHD | Unified Force-Balance Modeling of Nonlinear MHD Instability Evolution in Helical and Tokamak Plasmas |
| Oral | Kenichi Nagaoka | National Institute for Fusion Science | Plasma transport and confinement | CHD: Renovation of CHS |
| Poster | Hao WANG | National Institute for Fusion Science | Energetic particles and MHD | Simulation of energetic-particle-driven instabilities in VAST stellarator |
| Oral | Kenji Tanaka | National Institute for Fusion Science, Japan | Plasma transport and confinement | Configuration effects on transport in LHD; Lessons for configuration optimization |
| Oral | Hiroyuki Tanoue | National Institute for Fusion Science, National Institutes for Natural Sciences | Stellarator optimisation and reactor design | Engineering challenges on the low-aspect-ratio quasi-axisymmetric stellarator CFQS-T and its upgrade status toward the 1 T operation |
| Poster | Mitsutaka Isobe | National Institute for Fusion Science, National Institutes of Natural Sciences | Stellarator optimisation and reactor design | Post-LHD project from LHD project |
| Poster | M. Cianciosa | Oak Ridge National Laboratory | Stellarator optimisation and reactor design | Development of a VMEC-NN using Physics Informed Machine Learning |
| Oral | Kenneth Hammond | Princeton Plasma Physics Laboratory | Stellarator optimisation and reactor design | Designing coils with discrete optimization methods |
| Poster | Ameer I. Mohammed | Princeton Plasma Physics Laboratory | Plasma transport and confinement | Gyrokinetic analysis of injection experiments in W7-X and LHD using GX |
| Poster | Felix I. Parra | Princeton Plasma Physics Laboratory, Princeton, NJ, USA | Plasma transport and confinement | Linear equations for stellarator local MHD equilibria around irrational and rational flux surfaces |
| Oral | 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 |
| Poster | Yigit Gunsur Elmacioglu | Princeton University | Stellarator optimisation and reactor design | Direct Trajectory-Based Optimization of Particle Confinement for Stellarators in DESC |
| Poster | Dario Panici | Princeton University | Stellarator optimisation and reactor design | Reconstruction Capabilities in DESC |
| Oral | Francisco Saenz | Princeton University | Stellarator optimisation and reactor design | Novel Electromagnetic Coil Strategies for Multi-Equilibrium Stellarator Design: Variable Conductivity Coil, Electric Dipoles, and Distributed Current Sources/Sinks |
| Poster | Lee Kadz | Princeton University | Stellarator optimisation and reactor design | Optimization of C0 Coils in DESC |
| Poster | Wrick Sengupta | Princeton University | Plasma transport and confinement | Theory of ridges in compact quasi-axisymmetric devices |
| Poster | Stefan Buller | Princeton University | Stellarator optimisation and reactor design | Compact quasi-axisymmetric equilibria with coil-complexity metrics |