Scientific Program
Burning plasmas
-Isotope effects, H/D, D/T and He studies
-MHD, fast-particles, fast-particle-MHD-turbulence interactions
-ITER, SPARC, STEP projections of transport and control
Stellarators and 3D fields
-turbulence effects and stellarator optimisation
-imposed magnetic perturbations and their transport consequences
Magnetic equilibrium effects
-effects of shaping, spherical tokamaks, negative triangularity
-high magnetic field solutions, SPARC, DTT, Compass-U
No-/Small-ELM confinement regimes
-parametric ranges of access to regimes
-transition physics (including H-L-H mode)
SOL-edge-core integration
-SOL/divertor transport, density and heat flux spreading
-flows and turbulence
-filamentary dynamics
-compatibility with core performance, boundary conditions
New capabilities in modelling and measurement
-advanced instruments and analysis for transport and fluctuations
-new developments in theory and computational methods
Impurity transport
-ITER-wall update consequences
-SOL source and transport, seeding and radiation
Programme Committee
István Cziegler, University of York, Chair
Athina Kappatou, Institute for Plasma Physics, Garching, Vice Chair
Dániel Dunai, HUN-REN Centre for Energy Research, Head of Local Organising Committee
Theresa Wilks, Massachusetts Institute of Technology, US TTF Chair
Dmitri Orlov, University of California San Diego, US TTF Vice Chair
Michael Fitzgerald, UK Atomic Energy Authority
Sophia Henneberg, Institute for Plasma Physics, Greifswald
Pierre Manas, French Alternative Energies and Atomic Energy Commission (CEA)
Nicola Vianello, Consorzio RFX
Maiko Yoshida, National Institutes for Quantum Science and Technology, Japan
Local Organizing Committee
Head : Dániel Dunai, HUN-REN Centre for Energy Research
