› Quasi-steady-state plasma operation in the Be/W material mix: from the JET tokamak to the ITER reactor - Sebastijan Brezinsek, Forschungszentrum Jülich GmbH
09:45-10:30 (45min)
› Effects of strike point displacement on the ITER tungsten divertor reflector plate heat loads - Stefano Carli, Politecnico di Torino
10:30-11:00 (30min)
› Modelling the effect of divertor closure on detachment onset in DIII-D with the SOLPS code - Livia Casali, Oak Ridge Associated Universities
11:00-11:30 (30min)
› Multiple impurity seeding for power exhaust management in JT-60SA tokamak with carbon divertor - Krzysztof Gałązka, Institute of Plasma Physics and Laser Microfusion
11:30-12:00 (30min)
› Simulation study on the vapor shielding at solid walls under transient heat loads using weighted particle model - Kenzo IBANO, Osaka University
16:15-17:00 (45min)
› On the radiation transport in inhomogeneous plasmas - Evgeny Marenkov, Moscow Engineering and Physics Institute
17:00-17:30 (30min)
› SOL-divertor plasma simulation based on a generalized fluid model incorporating ion temperature anisotropy and mirror effect - Satoshi Togo, Plasma Research Center, University of Tsukuba
17:30-18:00 (30min)
› What non-linear simulations can teach about ELM physics - Matthias Hoelzl, Max Planck Institute for Plasma Physics
08:45-09:30 (45min)
› Curvature effect on the Micro-tearing Mode stability - Myriam Hamed, IRFM/CEA
09:30-10:00 (30min)
› Kinetic modelling of divertor fluxes between and during ELMs in a COMPASS-like tokamak plasma - Masanari Hosokawa, ITER Organization
10:00-10:30 (30min)
› Impact of magnetic geometry and X-point configuration on edge plasma turbulence and transport in 3D first principle simulations - Patrick Tamain, IRFM/CEA
11:00-11:45 (45min)
› Non-Boussinesq turbulence studies in the scrape-off layer - Alexander Ross, Max-Planck-Institut für Plasmaphysik
11:45-12:15 (30min)
› Width of turbulent SOL in tokamaks: from circular geometry to diverted ones - Nicolas Fedorczak, IRFM/CEA
12:15-12:45 (30min)
› Continuum kinetic modeling of axisymmetric plasma transport at the edge of a divertor tokamak - Mikhail Dorf, Lawrence Livermore National Laboratory
08:45-09:30 (45min)
› Multi-impurity divertor simulation using a Monte-Carlo kinetic impurity transport model - Kazuo Hoshino, QST
09:30-10:00 (30min)
› Kinetic and fluid modelling of non-local parallel heat transport in magnetic fusion devices - Guido Ciraolo, IRFM/CEA
10:00-10:30 (30min)
› Divertor design through adjoint approaches and efficient code simulation strategies - Wouter Dekeyser, KU Leuven
14:30-15:15 (45min)
› Current SOLPS-ITER physics developments and activity - Xavier Bonnin, ITER Organization
15:15-15:45 (30min)
› Characterization of oscillations observed in reduced physics SOLPS simulations - David Coster, Max-Planck-Institut für Plasmaphysik
15:45-16:15 (30min)
› A new high-order fluid solver for tokamak edge plasma transport simulations based on a magnetic-field independent discretization - Giorgio Giorgiani, M2P2
16:15-16:45 (30min)
Amphithéatre Gastaud
